1 /* Code conversion functions.
2 Copyright (C) 1991, 1995 Free Software Foundation, Inc.
3 Copyright (C) 1995 Sun Microsystems, Inc.
4 Copyright (C) 1999,2000,2001,2002,2003,2004 MORIOKA Tomohiko
6 This file is part of XEmacs.
8 XEmacs is free software; you can redistribute it and/or modify it
9 under the terms of the GNU General Public License as published by the
10 Free Software Foundation; either version 2, or (at your option) any
13 XEmacs is distributed in the hope that it will be useful, but WITHOUT
14 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
15 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
18 You should have received a copy of the GNU General Public License
19 along with XEmacs; see the file COPYING. If not, write to
20 the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
21 Boston, MA 02111-1307, USA. */
23 /* Synched up with: Mule 2.3. Not in FSF. */
25 /* Rewritten by Ben Wing <ben@xemacs.org>. */
26 /* Rewritten by MORIOKA Tomohiko <tomo@m17n.org> for XEmacs CHISE. */
40 #include "file-coding.h"
42 Lisp_Object Qcoding_system_error;
44 Lisp_Object Vkeyboard_coding_system;
45 Lisp_Object Vterminal_coding_system;
46 Lisp_Object Vcoding_system_for_read;
47 Lisp_Object Vcoding_system_for_write;
48 Lisp_Object Vfile_name_coding_system;
50 Lisp_Object Vcoded_charset_entity_reference_alist;
52 /* Table of symbols identifying each coding category. */
53 Lisp_Object coding_category_symbol[CODING_CATEGORY_LAST];
57 struct file_coding_dump {
58 /* Coding system currently associated with each coding category. */
59 Lisp_Object coding_category_system[CODING_CATEGORY_LAST];
61 /* Table of all coding categories in decreasing order of priority.
62 This describes a permutation of the possible coding categories. */
63 int coding_category_by_priority[CODING_CATEGORY_LAST];
65 #if defined(MULE) && !defined(UTF2000)
66 Lisp_Object ucs_to_mule_table[65536];
70 static const struct lrecord_description fcd_description_1[] = {
71 { XD_LISP_OBJECT_ARRAY, offsetof (struct file_coding_dump, coding_category_system), CODING_CATEGORY_LAST },
72 #if defined(MULE) && !defined(UTF2000)
73 { XD_LISP_OBJECT_ARRAY, offsetof (struct file_coding_dump, ucs_to_mule_table), countof (fcd->ucs_to_mule_table) },
78 static const struct struct_description fcd_description = {
79 sizeof (struct file_coding_dump),
83 Lisp_Object mule_to_ucs_table;
85 Lisp_Object Qcoding_systemp;
87 Lisp_Object Qraw_text, Qno_conversion, Qccl, Qiso2022;
88 /* Qinternal in general.c */
90 Lisp_Object Qmnemonic, Qeol_type;
91 Lisp_Object Qcr, Qcrlf, Qlf;
92 Lisp_Object Qeol_cr, Qeol_crlf, Qeol_lf;
93 Lisp_Object Qpost_read_conversion;
94 Lisp_Object Qpre_write_conversion;
97 Lisp_Object Qucs4, Qutf16, Qutf8;
98 Lisp_Object Qbig5, Qshift_jis;
99 Lisp_Object Qcharset_g0, Qcharset_g1, Qcharset_g2, Qcharset_g3;
100 Lisp_Object Qforce_g0_on_output, Qforce_g1_on_output;
101 Lisp_Object Qforce_g2_on_output, Qforce_g3_on_output;
102 Lisp_Object Qno_iso6429;
103 Lisp_Object Qinput_charset_conversion, Qoutput_charset_conversion;
104 Lisp_Object Qescape_quoted;
105 Lisp_Object Qshort, Qno_ascii_eol, Qno_ascii_cntl, Qseven, Qlock_shift;
108 Lisp_Object Qutf_8_mcs;
109 Lisp_Object Qdisable_composition;
110 Lisp_Object Quse_entity_reference;
111 Lisp_Object Qd, Qx, QX;
113 Lisp_Object Qencode, Qdecode;
115 Lisp_Object Vcoding_system_hash_table;
117 int enable_multibyte_characters;
120 /* Additional information used by the ISO2022 decoder and detector. */
121 struct iso2022_decoder
123 /* CHARSET holds the character sets currently assigned to the G0
124 through G3 variables. It is initialized from the array
125 INITIAL_CHARSET in CODESYS. */
126 Lisp_Object charset[4];
128 /* Which registers are currently invoked into the left (GL) and
129 right (GR) halves of the 8-bit encoding space? */
130 int register_left, register_right;
132 /* ISO_ESC holds a value indicating part of an escape sequence
133 that has already been seen. */
134 enum iso_esc_flag esc;
136 /* This records the bytes we've seen so far in an escape sequence,
137 in case the sequence is invalid (we spit out the bytes unchanged). */
138 unsigned char esc_bytes[8];
140 /* Index for next byte to store in ISO escape sequence. */
143 #ifdef ENABLE_COMPOSITE_CHARS
144 /* Stuff seen so far when composing a string. */
145 unsigned_char_dynarr *composite_chars;
148 /* If we saw an invalid designation sequence for a particular
149 register, we flag it here and switch to ASCII. The next time we
150 see a valid designation for this register, we turn off the flag
151 and do the designation normally, but pretend the sequence was
152 invalid. The effect of all this is that (most of the time) the
153 escape sequences for both the switch to the unknown charset, and
154 the switch back to the known charset, get inserted literally into
155 the buffer and saved out as such. The hope is that we can
156 preserve the escape sequences so that the resulting written out
157 file makes sense. If we don't do any of this, the designation
158 to the invalid charset will be preserved but that switch back
159 to the known charset will probably get eaten because it was
160 the same charset that was already present in the register. */
161 unsigned char invalid_designated[4];
163 /* We try to do similar things as above for direction-switching
164 sequences. If we encountered a direction switch while an
165 invalid designation was present, or an invalid designation
166 just after a direction switch (i.e. no valid designation
167 encountered yet), we insert the direction-switch escape
168 sequence literally into the output stream, and later on
169 insert the corresponding direction-restoring escape sequence
171 unsigned int switched_dir_and_no_valid_charset_yet :1;
172 unsigned int invalid_switch_dir :1;
174 /* Tells the decoder to output the escape sequence literally
175 even though it was valid. Used in the games we play to
176 avoid lossage when we encounter invalid designations. */
177 unsigned int output_literally :1;
178 /* We encountered a direction switch followed by an invalid
179 designation. We didn't output the direction switch
180 literally because we didn't know about the invalid designation;
181 but we have to do so now. */
182 unsigned int output_direction_sequence :1;
185 EXFUN (Fcopy_coding_system, 2);
187 struct detection_state;
190 text_encode_generic (Lstream *encoding, const Bufbyte *src,
191 unsigned_char_dynarr *dst, Lstream_data_count n);
193 static int detect_coding_sjis (struct detection_state *st,
194 const Extbyte *src, Lstream_data_count n);
195 static void decode_coding_sjis (Lstream *decoding, const Extbyte *src,
196 unsigned_char_dynarr *dst, Lstream_data_count n);
197 void char_encode_shift_jis (struct encoding_stream *str, Emchar c,
198 unsigned_char_dynarr *dst, unsigned int *flags);
199 void char_finish_shift_jis (struct encoding_stream *str,
200 unsigned_char_dynarr *dst, unsigned int *flags);
202 static int detect_coding_big5 (struct detection_state *st,
203 const Extbyte *src, Lstream_data_count n);
204 static void decode_coding_big5 (Lstream *decoding, const Extbyte *src,
205 unsigned_char_dynarr *dst, Lstream_data_count n);
206 void char_encode_big5 (struct encoding_stream *str, Emchar c,
207 unsigned_char_dynarr *dst, unsigned int *flags);
208 void char_finish_big5 (struct encoding_stream *str,
209 unsigned_char_dynarr *dst, unsigned int *flags);
211 static int detect_coding_ucs4 (struct detection_state *st,
212 const Extbyte *src, Lstream_data_count n);
213 static void decode_coding_ucs4 (Lstream *decoding, const Extbyte *src,
214 unsigned_char_dynarr *dst, Lstream_data_count n);
215 void char_encode_ucs4 (struct encoding_stream *str, Emchar c,
216 unsigned_char_dynarr *dst, unsigned int *flags);
217 void char_finish_ucs4 (struct encoding_stream *str,
218 unsigned_char_dynarr *dst, unsigned int *flags);
220 static int detect_coding_utf16 (struct detection_state *st,
221 const Extbyte *src, Lstream_data_count n);
222 static void decode_coding_utf16 (Lstream *decoding, const Extbyte *src,
223 unsigned_char_dynarr *dst, Lstream_data_count n);
224 void char_encode_utf16 (struct encoding_stream *str, Emchar c,
225 unsigned_char_dynarr *dst, unsigned int *flags);
226 void char_finish_utf16 (struct encoding_stream *str,
227 unsigned_char_dynarr *dst, unsigned int *flags);
229 static int detect_coding_utf8 (struct detection_state *st,
230 const Extbyte *src, Lstream_data_count n);
231 static void decode_coding_utf8 (Lstream *decoding, const Extbyte *src,
232 unsigned_char_dynarr *dst, Lstream_data_count n);
233 void char_encode_utf8 (struct encoding_stream *str, Emchar c,
234 unsigned_char_dynarr *dst, unsigned int *flags);
235 void char_finish_utf8 (struct encoding_stream *str,
236 unsigned_char_dynarr *dst, unsigned int *flags);
238 static int postprocess_iso2022_mask (int mask);
239 static void reset_iso2022 (Lisp_Object coding_system,
240 struct iso2022_decoder *iso);
241 static int detect_coding_iso2022 (struct detection_state *st,
242 const Extbyte *src, Lstream_data_count n);
243 static void decode_coding_iso2022 (Lstream *decoding, const Extbyte *src,
244 unsigned_char_dynarr *dst, Lstream_data_count n);
245 void char_encode_iso2022 (struct encoding_stream *str, Emchar c,
246 unsigned_char_dynarr *dst, unsigned int *flags);
247 void char_finish_iso2022 (struct encoding_stream *str,
248 unsigned_char_dynarr *dst, unsigned int *flags);
250 static void decode_coding_no_conversion (Lstream *decoding, const Extbyte *src,
251 unsigned_char_dynarr *dst, Lstream_data_count n);
252 static void encode_coding_no_conversion (Lstream *encoding, const Bufbyte *src,
253 unsigned_char_dynarr *dst, Lstream_data_count n);
254 static void mule_decode (Lstream *decoding, const Extbyte *src,
255 unsigned_char_dynarr *dst, Lstream_data_count n);
256 static void mule_encode (Lstream *encoding, const Bufbyte *src,
257 unsigned_char_dynarr *dst, Lstream_data_count n);
259 typedef struct codesys_prop codesys_prop;
268 Dynarr_declare (codesys_prop);
269 } codesys_prop_dynarr;
271 static const struct lrecord_description codesys_prop_description_1[] = {
272 { XD_LISP_OBJECT, offsetof (codesys_prop, sym) },
276 static const struct struct_description codesys_prop_description = {
277 sizeof (codesys_prop),
278 codesys_prop_description_1
281 static const struct lrecord_description codesys_prop_dynarr_description_1[] = {
282 XD_DYNARR_DESC (codesys_prop_dynarr, &codesys_prop_description),
286 static const struct struct_description codesys_prop_dynarr_description = {
287 sizeof (codesys_prop_dynarr),
288 codesys_prop_dynarr_description_1
291 codesys_prop_dynarr *the_codesys_prop_dynarr;
293 enum codesys_prop_enum
296 CODESYS_PROP_ISO2022,
301 /************************************************************************/
302 /* Coding system functions */
303 /************************************************************************/
305 static Lisp_Object mark_coding_system (Lisp_Object);
306 static void print_coding_system (Lisp_Object, Lisp_Object, int);
307 static void finalize_coding_system (void *header, int for_disksave);
310 static const struct lrecord_description ccs_description_1[] = {
311 { XD_LISP_OBJECT, offsetof (charset_conversion_spec, from_charset) },
312 { XD_LISP_OBJECT, offsetof (charset_conversion_spec, to_charset) },
316 static const struct struct_description ccs_description = {
317 sizeof (charset_conversion_spec),
321 static const struct lrecord_description ccsd_description_1[] = {
322 XD_DYNARR_DESC (charset_conversion_spec_dynarr, &ccs_description),
326 static const struct struct_description ccsd_description = {
327 sizeof (charset_conversion_spec_dynarr),
332 static const struct lrecord_description coding_system_description[] = {
333 { XD_LISP_OBJECT, offsetof (Lisp_Coding_System, name) },
334 { XD_LISP_OBJECT, offsetof (Lisp_Coding_System, doc_string) },
335 { XD_LISP_OBJECT, offsetof (Lisp_Coding_System, mnemonic) },
336 { XD_LISP_OBJECT, offsetof (Lisp_Coding_System, post_read_conversion) },
337 { XD_LISP_OBJECT, offsetof (Lisp_Coding_System, pre_write_conversion) },
338 { XD_LISP_OBJECT, offsetof (Lisp_Coding_System, eol_lf) },
339 { XD_LISP_OBJECT, offsetof (Lisp_Coding_System, eol_crlf) },
340 { XD_LISP_OBJECT, offsetof (Lisp_Coding_System, eol_cr) },
342 { XD_LISP_OBJECT_ARRAY, offsetof (Lisp_Coding_System, iso2022.initial_charset), 4 },
343 { XD_STRUCT_PTR, offsetof (Lisp_Coding_System, iso2022.input_conv), 1, &ccsd_description },
344 { XD_STRUCT_PTR, offsetof (Lisp_Coding_System, iso2022.output_conv), 1, &ccsd_description },
345 { XD_LISP_OBJECT, offsetof (Lisp_Coding_System, ccl.decode) },
346 { XD_LISP_OBJECT, offsetof (Lisp_Coding_System, ccl.encode) },
348 { XD_LISP_OBJECT, offsetof (Lisp_Coding_System, ccs_priority_list) },
354 DEFINE_LRECORD_IMPLEMENTATION ("coding-system", coding_system,
355 mark_coding_system, print_coding_system,
356 finalize_coding_system,
357 0, 0, coding_system_description,
361 mark_coding_system (Lisp_Object obj)
363 Lisp_Coding_System *codesys = XCODING_SYSTEM (obj);
365 mark_object (CODING_SYSTEM_NAME (codesys));
366 mark_object (CODING_SYSTEM_DOC_STRING (codesys));
367 mark_object (CODING_SYSTEM_MNEMONIC (codesys));
368 mark_object (CODING_SYSTEM_EOL_LF (codesys));
369 mark_object (CODING_SYSTEM_EOL_CRLF (codesys));
370 mark_object (CODING_SYSTEM_EOL_CR (codesys));
372 switch (CODING_SYSTEM_TYPE (codesys))
376 case CODESYS_ISO2022:
377 for (i = 0; i < 4; i++)
378 mark_object (CODING_SYSTEM_ISO2022_INITIAL_CHARSET (codesys, i));
379 if (codesys->iso2022.input_conv)
381 for (i = 0; i < Dynarr_length (codesys->iso2022.input_conv); i++)
383 struct charset_conversion_spec *ccs =
384 Dynarr_atp (codesys->iso2022.input_conv, i);
385 mark_object (ccs->from_charset);
386 mark_object (ccs->to_charset);
389 if (codesys->iso2022.output_conv)
391 for (i = 0; i < Dynarr_length (codesys->iso2022.output_conv); i++)
393 struct charset_conversion_spec *ccs =
394 Dynarr_atp (codesys->iso2022.output_conv, i);
395 mark_object (ccs->from_charset);
396 mark_object (ccs->to_charset);
403 mark_object (CODING_SYSTEM_ISO2022_INITIAL_CHARSET (codesys, 0));
404 mark_object (CODING_SYSTEM_ISO2022_INITIAL_CHARSET (codesys, 1));
409 mark_object (CODING_SYSTEM_CCL_DECODE (codesys));
410 mark_object (CODING_SYSTEM_CCL_ENCODE (codesys));
417 mark_object (CODING_SYSTEM_PRE_WRITE_CONVERSION (codesys));
419 mark_object (CODING_SYSTEM_CCS_PRIORITY_LIST (codesys));
421 return CODING_SYSTEM_POST_READ_CONVERSION (codesys);
425 print_coding_system (Lisp_Object obj, Lisp_Object printcharfun,
428 Lisp_Coding_System *c = XCODING_SYSTEM (obj);
430 error ("printing unreadable object #<coding_system 0x%x>",
433 write_c_string ("#<coding_system ", printcharfun);
434 print_internal (c->name, printcharfun, 1);
435 write_c_string (">", printcharfun);
439 finalize_coding_system (void *header, int for_disksave)
441 Lisp_Coding_System *c = (Lisp_Coding_System *) header;
442 /* Since coding systems never go away, this function is not
443 necessary. But it would be necessary if we changed things
444 so that coding systems could go away. */
445 if (!for_disksave) /* see comment in lstream.c */
447 switch (CODING_SYSTEM_TYPE (c))
450 case CODESYS_ISO2022:
451 if (c->iso2022.input_conv)
453 Dynarr_free (c->iso2022.input_conv);
454 c->iso2022.input_conv = 0;
456 if (c->iso2022.output_conv)
458 Dynarr_free (c->iso2022.output_conv);
459 c->iso2022.output_conv = 0;
470 symbol_to_eol_type (Lisp_Object symbol)
472 CHECK_SYMBOL (symbol);
473 if (NILP (symbol)) return EOL_AUTODETECT;
474 if (EQ (symbol, Qlf)) return EOL_LF;
475 if (EQ (symbol, Qcrlf)) return EOL_CRLF;
476 if (EQ (symbol, Qcr)) return EOL_CR;
478 signal_simple_error ("Unrecognized eol type", symbol);
479 return EOL_AUTODETECT; /* not reached */
483 eol_type_to_symbol (eol_type_t type)
488 case EOL_LF: return Qlf;
489 case EOL_CRLF: return Qcrlf;
490 case EOL_CR: return Qcr;
491 case EOL_AUTODETECT: return Qnil;
496 setup_eol_coding_systems (Lisp_Coding_System *codesys)
498 Lisp_Object codesys_obj;
499 int len = string_length (XSYMBOL (CODING_SYSTEM_NAME (codesys))->name);
500 char *codesys_name = (char *) alloca (len + 7);
502 char *codesys_mnemonic=0;
504 Lisp_Object codesys_name_sym, sub_codesys_obj;
508 XSETCODING_SYSTEM (codesys_obj, codesys);
510 memcpy (codesys_name,
511 string_data (XSYMBOL (CODING_SYSTEM_NAME (codesys))->name), len);
513 if (STRINGP (CODING_SYSTEM_MNEMONIC (codesys)))
515 mlen = XSTRING_LENGTH (CODING_SYSTEM_MNEMONIC (codesys));
516 codesys_mnemonic = (char *) alloca (mlen + 7);
517 memcpy (codesys_mnemonic,
518 XSTRING_DATA (CODING_SYSTEM_MNEMONIC (codesys)), mlen);
521 #define DEFINE_SUB_CODESYS(op_sys, op_sys_abbr, Type) do { \
522 strcpy (codesys_name + len, "-" op_sys); \
524 strcpy (codesys_mnemonic + mlen, op_sys_abbr); \
525 codesys_name_sym = intern (codesys_name); \
526 sub_codesys_obj = Fcopy_coding_system (codesys_obj, codesys_name_sym); \
527 XCODING_SYSTEM_EOL_TYPE (sub_codesys_obj) = Type; \
529 XCODING_SYSTEM_MNEMONIC(sub_codesys_obj) = \
530 build_string (codesys_mnemonic); \
531 CODING_SYSTEM_##Type (codesys) = sub_codesys_obj; \
534 DEFINE_SUB_CODESYS("unix", "", EOL_LF);
535 DEFINE_SUB_CODESYS("dos", ":T", EOL_CRLF);
536 DEFINE_SUB_CODESYS("mac", ":t", EOL_CR);
539 DEFUN ("coding-system-p", Fcoding_system_p, 1, 1, 0, /*
540 Return t if OBJECT is a coding system.
541 A coding system is an object that defines how text containing multiple
542 character sets is encoded into a stream of (typically 8-bit) bytes.
543 The coding system is used to decode the stream into a series of
544 characters (which may be from multiple charsets) when the text is read
545 from a file or process, and is used to encode the text back into the
546 same format when it is written out to a file or process.
548 For example, many ISO2022-compliant coding systems (such as Compound
549 Text, which is used for inter-client data under the X Window System)
550 use escape sequences to switch between different charsets -- Japanese
551 Kanji, for example, is invoked with "ESC $ ( B"; ASCII is invoked
552 with "ESC ( B"; and Cyrillic is invoked with "ESC - L". See
553 `make-coding-system' for more information.
555 Coding systems are normally identified using a symbol, and the
556 symbol is accepted in place of the actual coding system object whenever
557 a coding system is called for. (This is similar to how faces work.)
561 return CODING_SYSTEMP (object) ? Qt : Qnil;
564 DEFUN ("find-coding-system", Ffind_coding_system, 1, 1, 0, /*
565 Retrieve the coding system of the given name.
567 If CODING-SYSTEM-OR-NAME is a coding-system object, it is simply
568 returned. Otherwise, CODING-SYSTEM-OR-NAME should be a symbol.
569 If there is no such coding system, nil is returned. Otherwise the
570 associated coding system object is returned.
572 (coding_system_or_name))
574 if (NILP (coding_system_or_name))
575 coding_system_or_name = Qbinary;
576 else if (CODING_SYSTEMP (coding_system_or_name))
577 return coding_system_or_name;
579 CHECK_SYMBOL (coding_system_or_name);
583 coding_system_or_name =
584 Fgethash (coding_system_or_name, Vcoding_system_hash_table, Qnil);
586 if (CODING_SYSTEMP (coding_system_or_name) || NILP (coding_system_or_name))
587 return coding_system_or_name;
591 DEFUN ("get-coding-system", Fget_coding_system, 1, 1, 0, /*
592 Retrieve the coding system of the given name.
593 Same as `find-coding-system' except that if there is no such
594 coding system, an error is signaled instead of returning nil.
598 Lisp_Object coding_system = Ffind_coding_system (name);
600 if (NILP (coding_system))
601 signal_simple_error ("No such coding system", name);
602 return coding_system;
605 /* We store the coding systems in hash tables with the names as the key and the
606 actual coding system object as the value. Occasionally we need to use them
607 in a list format. These routines provide us with that. */
608 struct coding_system_list_closure
610 Lisp_Object *coding_system_list;
614 add_coding_system_to_list_mapper (Lisp_Object key, Lisp_Object value,
615 void *coding_system_list_closure)
617 /* This function can GC */
618 struct coding_system_list_closure *cscl =
619 (struct coding_system_list_closure *) coding_system_list_closure;
620 Lisp_Object *coding_system_list = cscl->coding_system_list;
622 *coding_system_list = Fcons (key, *coding_system_list);
626 DEFUN ("coding-system-list", Fcoding_system_list, 0, 0, 0, /*
627 Return a list of the names of all defined coding systems.
631 Lisp_Object coding_system_list = Qnil;
633 struct coding_system_list_closure coding_system_list_closure;
635 GCPRO1 (coding_system_list);
636 coding_system_list_closure.coding_system_list = &coding_system_list;
637 elisp_maphash (add_coding_system_to_list_mapper, Vcoding_system_hash_table,
638 &coding_system_list_closure);
641 return coding_system_list;
644 DEFUN ("coding-system-name", Fcoding_system_name, 1, 1, 0, /*
645 Return the name of the given coding system.
649 coding_system = Fget_coding_system (coding_system);
650 return XCODING_SYSTEM_NAME (coding_system);
653 static Lisp_Coding_System *
654 allocate_coding_system (enum coding_system_type type, Lisp_Object name)
656 Lisp_Coding_System *codesys =
657 alloc_lcrecord_type (Lisp_Coding_System, &lrecord_coding_system);
659 zero_lcrecord (codesys);
660 CODING_SYSTEM_PRE_WRITE_CONVERSION (codesys) = Qnil;
661 CODING_SYSTEM_POST_READ_CONVERSION (codesys) = Qnil;
662 CODING_SYSTEM_EOL_TYPE (codesys) = EOL_AUTODETECT;
663 CODING_SYSTEM_EOL_CRLF (codesys) = Qnil;
664 CODING_SYSTEM_EOL_CR (codesys) = Qnil;
665 CODING_SYSTEM_EOL_LF (codesys) = Qnil;
666 CODING_SYSTEM_TYPE (codesys) = type;
667 CODING_SYSTEM_MNEMONIC (codesys) = Qnil;
670 CODING_SYSTEM_CCS_PRIORITY_LIST (codesys) = Qnil;
672 if (type == CODESYS_ISO2022)
675 for (i = 0; i < 4; i++)
676 CODING_SYSTEM_ISO2022_INITIAL_CHARSET (codesys, i) = Qnil;
679 if (type == CODESYS_UTF8)
681 CODING_SYSTEM_ISO2022_INITIAL_CHARSET (codesys, 0)
683 CODING_SYSTEM_ISO2022_INITIAL_CHARSET (codesys, 1)
685 CODING_SYSTEM_ISO2022_INITIAL_CHARSET (codesys, 2)
687 CODING_SYSTEM_ISO2022_INITIAL_CHARSET (codesys, 3)
690 else if (type == CODESYS_BIG5)
692 CODING_SYSTEM_ISO2022_INITIAL_CHARSET (codesys, 0)
694 CODING_SYSTEM_ISO2022_INITIAL_CHARSET (codesys, 1)
695 = Vcharset_chinese_big5;
696 CODING_SYSTEM_ISO2022_INITIAL_CHARSET (codesys, 2)
698 CODING_SYSTEM_ISO2022_INITIAL_CHARSET (codesys, 3)
702 else if (type == CODESYS_CCL)
704 CODING_SYSTEM_CCL_DECODE (codesys) = Qnil;
705 CODING_SYSTEM_CCL_ENCODE (codesys) = Qnil;
708 CODING_SYSTEM_NAME (codesys) = name;
714 /* Given a list of charset conversion specs as specified in a Lisp
715 program, parse it into STORE_HERE. */
718 parse_charset_conversion_specs (charset_conversion_spec_dynarr *store_here,
719 Lisp_Object spec_list)
723 EXTERNAL_LIST_LOOP (rest, spec_list)
725 Lisp_Object car = XCAR (rest);
726 Lisp_Object from, to;
727 struct charset_conversion_spec spec;
729 if (!CONSP (car) || !CONSP (XCDR (car)) || !NILP (XCDR (XCDR (car))))
730 signal_simple_error ("Invalid charset conversion spec", car);
731 from = Fget_charset (XCAR (car));
732 to = Fget_charset (XCAR (XCDR (car)));
733 if ( (XCHARSET_CHARS (from) != XCHARSET_CHARS (to)) ||
734 (XCHARSET_DIMENSION (from) != XCHARSET_DIMENSION (to)) )
735 signal_simple_error_2
736 ("Attempted conversion between different charset types",
738 spec.from_charset = from;
739 spec.to_charset = to;
741 Dynarr_add (store_here, spec);
745 /* Given a dynarr LOAD_HERE of internally-stored charset conversion
746 specs, return the equivalent as the Lisp programmer would see it.
748 If LOAD_HERE is 0, return Qnil. */
751 unparse_charset_conversion_specs (charset_conversion_spec_dynarr *load_here)
758 for (i = 0, result = Qnil; i < Dynarr_length (load_here); i++)
760 struct charset_conversion_spec *ccs = Dynarr_atp (load_here, i);
761 result = Fcons (list2 (ccs->from_charset, ccs->to_charset), result);
764 return Fnreverse (result);
769 DEFUN ("make-coding-system", Fmake_coding_system, 2, 4, 0, /*
770 Register symbol NAME as a coding system.
772 TYPE describes the conversion method used and should be one of
775 Automatic conversion. XEmacs attempts to detect the coding system
778 No conversion. Use this for binary files and such. On output,
779 graphic characters that are not in ASCII or Latin-1 will be
780 replaced by a ?. (For a no-conversion-encoded buffer, these
781 characters will only be present if you explicitly insert them.)
783 Shift-JIS (a Japanese encoding commonly used in PC operating systems).
785 ISO 10646 UCS-4 encoding.
787 ISO 10646 UTF-8 encoding.
789 Any ISO2022-compliant encoding. Among other things, this includes
790 JIS (the Japanese encoding commonly used for e-mail), EUC (the
791 standard Unix encoding for Japanese and other languages), and
792 Compound Text (the encoding used in X11). You can specify more
793 specific information about the conversion with the PROPS argument.
795 Big5 (the encoding commonly used for Taiwanese).
797 The conversion is performed using a user-written pseudo-code
798 program. CCL (Code Conversion Language) is the name of this
801 Write out or read in the raw contents of the memory representing
802 the buffer's text. This is primarily useful for debugging
803 purposes, and is only enabled when XEmacs has been compiled with
804 DEBUG_XEMACS defined (via the --debug configure option).
805 WARNING: Reading in a file using 'internal conversion can result
806 in an internal inconsistency in the memory representing a
807 buffer's text, which will produce unpredictable results and may
808 cause XEmacs to crash. Under normal circumstances you should
809 never use 'internal conversion.
811 DOC-STRING is a string describing the coding system.
813 PROPS is a property list, describing the specific nature of the
814 character set. Recognized properties are:
817 String to be displayed in the modeline when this coding system is
821 End-of-line conversion to be used. It should be one of
824 Automatically detect the end-of-line type (LF, CRLF,
825 or CR). Also generate subsidiary coding systems named
826 `NAME-unix', `NAME-dos', and `NAME-mac', that are
827 identical to this coding system but have an EOL-TYPE
828 value of 'lf, 'crlf, and 'cr, respectively.
830 The end of a line is marked externally using ASCII LF.
831 Since this is also the way that XEmacs represents an
832 end-of-line internally, specifying this option results
833 in no end-of-line conversion. This is the standard
834 format for Unix text files.
836 The end of a line is marked externally using ASCII
837 CRLF. This is the standard format for MS-DOS text
840 The end of a line is marked externally using ASCII CR.
841 This is the standard format for Macintosh text files.
843 Automatically detect the end-of-line type but do not
844 generate subsidiary coding systems. (This value is
845 converted to nil when stored internally, and
846 `coding-system-property' will return nil.)
849 If non-nil, composition/decomposition for combining characters
852 'use-entity-reference
853 If non-nil, SGML style entity-reference is used for non-system-characters.
855 'post-read-conversion
856 Function called after a file has been read in, to perform the
857 decoding. Called with two arguments, START and END, denoting
858 a region of the current buffer to be decoded.
860 'pre-write-conversion
861 Function called before a file is written out, to perform the
862 encoding. Called with two arguments, START and END, denoting
863 a region of the current buffer to be encoded.
866 The following additional properties are recognized if TYPE is 'iso2022:
872 The character set initially designated to the G0 - G3 registers.
873 The value should be one of
875 -- A charset object (designate that character set)
876 -- nil (do not ever use this register)
877 -- t (no character set is initially designated to
878 the register, but may be later on; this automatically
879 sets the corresponding `force-g*-on-output' property)
885 If non-nil, send an explicit designation sequence on output before
886 using the specified register.
889 If non-nil, use the short forms "ESC $ @", "ESC $ A", and
890 "ESC $ B" on output in place of the full designation sequences
891 "ESC $ ( @", "ESC $ ( A", and "ESC $ ( B".
894 If non-nil, don't designate ASCII to G0 at each end of line on output.
895 Setting this to non-nil also suppresses other state-resetting that
896 normally happens at the end of a line.
899 If non-nil, don't designate ASCII to G0 before control chars on output.
902 If non-nil, use 7-bit environment on output. Otherwise, use 8-bit
906 If non-nil, use locking-shift (SO/SI) instead of single-shift
907 or designation by escape sequence.
910 If non-nil, don't use ISO6429's direction specification.
913 If non-nil, literal control characters that are the same as
914 the beginning of a recognized ISO2022 or ISO6429 escape sequence
915 (in particular, ESC (0x1B), SO (0x0E), SI (0x0F), SS2 (0x8E),
916 SS3 (0x8F), and CSI (0x9B)) are "quoted" with an escape character
917 so that they can be properly distinguished from an escape sequence.
918 (Note that doing this results in a non-portable encoding.) This
919 encoding flag is used for byte-compiled files. Note that ESC
920 is a good choice for a quoting character because there are no
921 escape sequences whose second byte is a character from the Control-0
922 or Control-1 character sets; this is explicitly disallowed by the
925 'input-charset-conversion
926 A list of conversion specifications, specifying conversion of
927 characters in one charset to another when decoding is performed.
928 Each specification is a list of two elements: the source charset,
929 and the destination charset.
931 'output-charset-conversion
932 A list of conversion specifications, specifying conversion of
933 characters in one charset to another when encoding is performed.
934 The form of each specification is the same as for
935 'input-charset-conversion.
938 The following additional properties are recognized (and required)
942 CCL program used for decoding (converting to internal format).
945 CCL program used for encoding (converting to external format).
947 (name, type, doc_string, props))
949 Lisp_Coding_System *codesys;
950 enum coding_system_type ty;
951 int need_to_setup_eol_systems = 1;
953 /* Convert type to constant */
954 if (NILP (type) || EQ (type, Qundecided))
955 { ty = CODESYS_AUTODETECT; }
957 else if (EQ (type, Qshift_jis)) { ty = CODESYS_SHIFT_JIS; }
958 else if (EQ (type, Qiso2022)) { ty = CODESYS_ISO2022; }
959 else if (EQ (type, Qbig5)) { ty = CODESYS_BIG5; }
960 else if (EQ (type, Qucs4)) { ty = CODESYS_UCS4; }
961 else if (EQ (type, Qutf16)) { ty = CODESYS_UTF16; }
962 else if (EQ (type, Qutf8)) { ty = CODESYS_UTF8; }
963 else if (EQ (type, Qccl)) { ty = CODESYS_CCL; }
965 else if (EQ (type, Qno_conversion)) { ty = CODESYS_NO_CONVERSION; }
967 else if (EQ (type, Qinternal)) { ty = CODESYS_INTERNAL; }
970 signal_simple_error ("Invalid coding system type", type);
974 codesys = allocate_coding_system (ty, name);
976 if (NILP (doc_string))
977 doc_string = build_string ("");
979 CHECK_STRING (doc_string);
980 CODING_SYSTEM_DOC_STRING (codesys) = doc_string;
983 EXTERNAL_PROPERTY_LIST_LOOP_3 (key, value, props)
985 if (EQ (key, Qmnemonic))
988 CHECK_STRING (value);
989 CODING_SYSTEM_MNEMONIC (codesys) = value;
992 else if (EQ (key, Qeol_type))
994 need_to_setup_eol_systems = NILP (value);
997 CODING_SYSTEM_EOL_TYPE (codesys) = symbol_to_eol_type (value);
1000 else if (EQ (key, Qpost_read_conversion))
1001 CODING_SYSTEM_POST_READ_CONVERSION (codesys) = value;
1002 else if (EQ (key, Qpre_write_conversion))
1003 CODING_SYSTEM_PRE_WRITE_CONVERSION (codesys) = value;
1005 else if (EQ (key, Qdisable_composition))
1006 CODING_SYSTEM_DISABLE_COMPOSITION (codesys) = !NILP (value);
1007 else if (EQ (key, Quse_entity_reference))
1008 CODING_SYSTEM_USE_ENTITY_REFERENCE (codesys) = !NILP (value);
1011 else if (ty == CODESYS_ISO2022)
1013 #define FROB_INITIAL_CHARSET(charset_num) \
1014 CODING_SYSTEM_ISO2022_INITIAL_CHARSET (codesys, charset_num) = \
1015 ((EQ (value, Qt) || EQ (value, Qnil)) ? value : Fget_charset (value))
1017 if (EQ (key, Qcharset_g0)) FROB_INITIAL_CHARSET (0);
1018 else if (EQ (key, Qcharset_g1)) FROB_INITIAL_CHARSET (1);
1019 else if (EQ (key, Qcharset_g2)) FROB_INITIAL_CHARSET (2);
1020 else if (EQ (key, Qcharset_g3)) FROB_INITIAL_CHARSET (3);
1022 #define FROB_FORCE_CHARSET(charset_num) \
1023 CODING_SYSTEM_ISO2022_FORCE_CHARSET_ON_OUTPUT (codesys, charset_num) = !NILP (value)
1025 else if (EQ (key, Qforce_g0_on_output)) FROB_FORCE_CHARSET (0);
1026 else if (EQ (key, Qforce_g1_on_output)) FROB_FORCE_CHARSET (1);
1027 else if (EQ (key, Qforce_g2_on_output)) FROB_FORCE_CHARSET (2);
1028 else if (EQ (key, Qforce_g3_on_output)) FROB_FORCE_CHARSET (3);
1030 #define FROB_BOOLEAN_PROPERTY(prop) \
1031 CODING_SYSTEM_ISO2022_##prop (codesys) = !NILP (value)
1033 else if (EQ (key, Qshort)) FROB_BOOLEAN_PROPERTY (SHORT);
1034 else if (EQ (key, Qno_ascii_eol)) FROB_BOOLEAN_PROPERTY (NO_ASCII_EOL);
1035 else if (EQ (key, Qno_ascii_cntl)) FROB_BOOLEAN_PROPERTY (NO_ASCII_CNTL);
1036 else if (EQ (key, Qseven)) FROB_BOOLEAN_PROPERTY (SEVEN);
1037 else if (EQ (key, Qlock_shift)) FROB_BOOLEAN_PROPERTY (LOCK_SHIFT);
1038 else if (EQ (key, Qno_iso6429)) FROB_BOOLEAN_PROPERTY (NO_ISO6429);
1039 else if (EQ (key, Qescape_quoted)) FROB_BOOLEAN_PROPERTY (ESCAPE_QUOTED);
1041 else if (EQ (key, Qinput_charset_conversion))
1043 codesys->iso2022.input_conv =
1044 Dynarr_new (charset_conversion_spec);
1045 parse_charset_conversion_specs (codesys->iso2022.input_conv,
1048 else if (EQ (key, Qoutput_charset_conversion))
1050 codesys->iso2022.output_conv =
1051 Dynarr_new (charset_conversion_spec);
1052 parse_charset_conversion_specs (codesys->iso2022.output_conv,
1056 signal_simple_error ("Unrecognized property", key);
1059 else if (ty == CODESYS_UTF8)
1061 if (EQ (key, Qcharset_g0)) FROB_INITIAL_CHARSET (0);
1062 else if (EQ (key, Qcharset_g1))
1063 CODING_SYSTEM_ISO2022_INITIAL_CHARSET (codesys, 1) = value;
1064 else if (EQ (key, Qcharset_g2))
1065 CODING_SYSTEM_ISO2022_INITIAL_CHARSET (codesys, 2) = value;
1067 signal_simple_error ("Unrecognized property", key);
1069 else if (ty == CODESYS_BIG5)
1071 if (EQ (key, Qcharset_g0)) FROB_INITIAL_CHARSET (0);
1072 else if (EQ (key, Qcharset_g1)) FROB_INITIAL_CHARSET (1);
1074 signal_simple_error ("Unrecognized property", key);
1077 else if (EQ (type, Qccl))
1080 struct ccl_program test_ccl;
1083 /* Check key first. */
1084 if (EQ (key, Qdecode))
1085 suffix = "-ccl-decode";
1086 else if (EQ (key, Qencode))
1087 suffix = "-ccl-encode";
1089 signal_simple_error ("Unrecognized property", key);
1091 /* If value is vector, register it as a ccl program
1092 associated with an newly created symbol for
1093 backward compatibility. */
1094 if (VECTORP (value))
1096 sym = Fintern (concat2 (Fsymbol_name (name),
1097 build_string (suffix)),
1099 Fregister_ccl_program (sym, value);
1103 CHECK_SYMBOL (value);
1106 /* check if the given ccl programs are valid. */
1107 if (setup_ccl_program (&test_ccl, sym) < 0)
1108 signal_simple_error ("Invalid CCL program", value);
1110 if (EQ (key, Qdecode))
1111 CODING_SYSTEM_CCL_DECODE (codesys) = sym;
1112 else if (EQ (key, Qencode))
1113 CODING_SYSTEM_CCL_ENCODE (codesys) = sym;
1118 signal_simple_error ("Unrecognized property", key);
1122 if (need_to_setup_eol_systems)
1123 setup_eol_coding_systems (codesys);
1126 Lisp_Object codesys_obj;
1127 XSETCODING_SYSTEM (codesys_obj, codesys);
1128 Fputhash (name, codesys_obj, Vcoding_system_hash_table);
1133 DEFUN ("copy-coding-system", Fcopy_coding_system, 2, 2, 0, /*
1134 Copy OLD-CODING-SYSTEM to NEW-NAME.
1135 If NEW-NAME does not name an existing coding system, a new one will
1138 (old_coding_system, new_name))
1140 Lisp_Object new_coding_system;
1141 old_coding_system = Fget_coding_system (old_coding_system);
1142 new_coding_system = Ffind_coding_system (new_name);
1143 if (NILP (new_coding_system))
1145 XSETCODING_SYSTEM (new_coding_system,
1146 allocate_coding_system
1147 (XCODING_SYSTEM_TYPE (old_coding_system),
1149 Fputhash (new_name, new_coding_system, Vcoding_system_hash_table);
1153 Lisp_Coding_System *to = XCODING_SYSTEM (new_coding_system);
1154 Lisp_Coding_System *from = XCODING_SYSTEM (old_coding_system);
1155 memcpy (((char *) to ) + sizeof (to->header),
1156 ((char *) from) + sizeof (from->header),
1157 sizeof (*from) - sizeof (from->header));
1158 to->name = new_name;
1160 return new_coding_system;
1163 DEFUN ("coding-system-canonical-name-p", Fcoding_system_canonical_name_p, 1, 1, 0, /*
1164 Return t if OBJECT names a coding system, and is not a coding system alias.
1168 return CODING_SYSTEMP (Fgethash (object, Vcoding_system_hash_table, Qnil))
1172 DEFUN ("coding-system-alias-p", Fcoding_system_alias_p, 1, 1, 0, /*
1173 Return t if OBJECT is a coding system alias.
1174 All coding system aliases are created by `define-coding-system-alias'.
1178 return SYMBOLP (Fgethash (object, Vcoding_system_hash_table, Qzero))
1182 DEFUN ("coding-system-aliasee", Fcoding_system_aliasee, 1, 1, 0, /*
1183 Return the coding-system symbol for which symbol ALIAS is an alias.
1187 Lisp_Object aliasee = Fgethash (alias, Vcoding_system_hash_table, Qnil);
1188 if (SYMBOLP (aliasee))
1191 signal_simple_error ("Symbol is not a coding system alias", alias);
1192 return Qnil; /* To keep the compiler happy */
1196 append_suffix_to_symbol (Lisp_Object symbol, const char *ascii_string)
1198 return Fintern (concat2 (Fsymbol_name (symbol), build_string (ascii_string)),
1202 /* A maphash function, for removing dangling coding system aliases. */
1204 dangling_coding_system_alias_p (Lisp_Object alias,
1205 Lisp_Object aliasee,
1206 void *dangling_aliases)
1208 if (SYMBOLP (aliasee)
1209 && NILP (Fgethash (aliasee, Vcoding_system_hash_table, Qnil)))
1211 (*(int *) dangling_aliases)++;
1218 DEFUN ("define-coding-system-alias", Fdefine_coding_system_alias, 2, 2, 0, /*
1219 Define symbol ALIAS as an alias for coding system ALIASEE.
1221 You can use this function to redefine an alias that has already been defined,
1222 but you cannot redefine a name which is the canonical name for a coding system.
1223 \(a canonical name of a coding system is what is returned when you call
1224 `coding-system-name' on a coding system).
1226 ALIASEE itself can be an alias, which allows you to define nested aliases.
1228 You are forbidden, however, from creating alias loops or `dangling' aliases.
1229 These will be detected, and an error will be signaled if you attempt to do so.
1231 If ALIASEE is nil, then ALIAS will simply be undefined.
1233 See also `coding-system-alias-p', `coding-system-aliasee',
1234 and `coding-system-canonical-name-p'.
1238 Lisp_Object real_coding_system, probe;
1240 CHECK_SYMBOL (alias);
1242 if (!NILP (Fcoding_system_canonical_name_p (alias)))
1244 ("Symbol is the canonical name of a coding system and cannot be redefined",
1249 Lisp_Object subsidiary_unix = append_suffix_to_symbol (alias, "-unix");
1250 Lisp_Object subsidiary_dos = append_suffix_to_symbol (alias, "-dos");
1251 Lisp_Object subsidiary_mac = append_suffix_to_symbol (alias, "-mac");
1253 Fremhash (alias, Vcoding_system_hash_table);
1255 /* Undefine subsidiary aliases,
1256 presumably created by a previous call to this function */
1257 if (! NILP (Fcoding_system_alias_p (subsidiary_unix)) &&
1258 ! NILP (Fcoding_system_alias_p (subsidiary_dos)) &&
1259 ! NILP (Fcoding_system_alias_p (subsidiary_mac)))
1261 Fdefine_coding_system_alias (subsidiary_unix, Qnil);
1262 Fdefine_coding_system_alias (subsidiary_dos, Qnil);
1263 Fdefine_coding_system_alias (subsidiary_mac, Qnil);
1266 /* Undefine dangling coding system aliases. */
1268 int dangling_aliases;
1271 dangling_aliases = 0;
1272 elisp_map_remhash (dangling_coding_system_alias_p,
1273 Vcoding_system_hash_table,
1275 } while (dangling_aliases > 0);
1281 if (CODING_SYSTEMP (aliasee))
1282 aliasee = XCODING_SYSTEM_NAME (aliasee);
1284 /* Checks that aliasee names a coding-system */
1285 real_coding_system = Fget_coding_system (aliasee);
1287 /* Check for coding system alias loops */
1288 if (EQ (alias, aliasee))
1289 alias_loop: signal_simple_error_2
1290 ("Attempt to create a coding system alias loop", alias, aliasee);
1292 for (probe = aliasee;
1294 probe = Fgethash (probe, Vcoding_system_hash_table, Qzero))
1296 if (EQ (probe, alias))
1300 Fputhash (alias, aliasee, Vcoding_system_hash_table);
1302 /* Set up aliases for subsidiaries.
1303 #### There must be a better way to handle subsidiary coding systems. */
1305 static const char *suffixes[] = { "-unix", "-dos", "-mac" };
1307 for (i = 0; i < countof (suffixes); i++)
1309 Lisp_Object alias_subsidiary =
1310 append_suffix_to_symbol (alias, suffixes[i]);
1311 Lisp_Object aliasee_subsidiary =
1312 append_suffix_to_symbol (aliasee, suffixes[i]);
1314 if (! NILP (Ffind_coding_system (aliasee_subsidiary)))
1315 Fdefine_coding_system_alias (alias_subsidiary, aliasee_subsidiary);
1318 /* FSF return value is a vector of [ALIAS-unix ALIAS-dos ALIAS-mac],
1319 but it doesn't look intentional, so I'd rather return something
1320 meaningful or nothing at all. */
1325 subsidiary_coding_system (Lisp_Object coding_system, eol_type_t type)
1327 Lisp_Coding_System *cs = XCODING_SYSTEM (coding_system);
1328 Lisp_Object new_coding_system;
1330 if (CODING_SYSTEM_EOL_TYPE (cs) != EOL_AUTODETECT)
1331 return coding_system;
1335 case EOL_AUTODETECT: return coding_system;
1336 case EOL_LF: new_coding_system = CODING_SYSTEM_EOL_LF (cs); break;
1337 case EOL_CR: new_coding_system = CODING_SYSTEM_EOL_CR (cs); break;
1338 case EOL_CRLF: new_coding_system = CODING_SYSTEM_EOL_CRLF (cs); break;
1339 default: abort (); return Qnil;
1342 return NILP (new_coding_system) ? coding_system : new_coding_system;
1345 DEFUN ("subsidiary-coding-system", Fsubsidiary_coding_system, 2, 2, 0, /*
1346 Return the subsidiary coding system of CODING-SYSTEM with eol type EOL-TYPE.
1348 (coding_system, eol_type))
1350 coding_system = Fget_coding_system (coding_system);
1352 return subsidiary_coding_system (coding_system,
1353 symbol_to_eol_type (eol_type));
1357 /************************************************************************/
1358 /* Coding system accessors */
1359 /************************************************************************/
1361 DEFUN ("coding-system-doc-string", Fcoding_system_doc_string, 1, 1, 0, /*
1362 Return the doc string for CODING-SYSTEM.
1366 coding_system = Fget_coding_system (coding_system);
1367 return XCODING_SYSTEM_DOC_STRING (coding_system);
1370 DEFUN ("coding-system-type", Fcoding_system_type, 1, 1, 0, /*
1371 Return the type of CODING-SYSTEM.
1375 switch (XCODING_SYSTEM_TYPE (Fget_coding_system (coding_system)))
1378 case CODESYS_AUTODETECT: return Qundecided;
1380 case CODESYS_SHIFT_JIS: return Qshift_jis;
1381 case CODESYS_ISO2022: return Qiso2022;
1382 case CODESYS_BIG5: return Qbig5;
1383 case CODESYS_UCS4: return Qucs4;
1384 case CODESYS_UTF16: return Qutf16;
1385 case CODESYS_UTF8: return Qutf8;
1386 case CODESYS_CCL: return Qccl;
1388 case CODESYS_NO_CONVERSION: return Qno_conversion;
1390 case CODESYS_INTERNAL: return Qinternal;
1397 Lisp_Object coding_system_charset (Lisp_Object coding_system, int gnum)
1400 = XCODING_SYSTEM_ISO2022_INITIAL_CHARSET (coding_system, gnum);
1402 return CHARSETP (cs) ? XCHARSET_NAME (cs) : Qnil;
1405 DEFUN ("coding-system-charset", Fcoding_system_charset, 2, 2, 0, /*
1406 Return initial charset of CODING-SYSTEM designated to GNUM.
1409 (coding_system, gnum))
1411 coding_system = Fget_coding_system (coding_system);
1414 return coding_system_charset (coding_system, XINT (gnum));
1418 DEFUN ("coding-system-property", Fcoding_system_property, 2, 2, 0, /*
1419 Return the PROP property of CODING-SYSTEM.
1421 (coding_system, prop))
1424 enum coding_system_type type;
1426 coding_system = Fget_coding_system (coding_system);
1427 CHECK_SYMBOL (prop);
1428 type = XCODING_SYSTEM_TYPE (coding_system);
1430 for (i = 0; !ok && i < Dynarr_length (the_codesys_prop_dynarr); i++)
1431 if (EQ (Dynarr_at (the_codesys_prop_dynarr, i).sym, prop))
1434 switch (Dynarr_at (the_codesys_prop_dynarr, i).prop_type)
1436 case CODESYS_PROP_ALL_OK:
1439 case CODESYS_PROP_ISO2022:
1440 if (type != CODESYS_ISO2022)
1442 ("Property only valid in ISO2022 coding systems",
1446 case CODESYS_PROP_CCL:
1447 if (type != CODESYS_CCL)
1449 ("Property only valid in CCL coding systems",
1459 signal_simple_error ("Unrecognized property", prop);
1461 if (EQ (prop, Qname))
1462 return XCODING_SYSTEM_NAME (coding_system);
1463 else if (EQ (prop, Qtype))
1464 return Fcoding_system_type (coding_system);
1465 else if (EQ (prop, Qdoc_string))
1466 return XCODING_SYSTEM_DOC_STRING (coding_system);
1467 else if (EQ (prop, Qmnemonic))
1468 return XCODING_SYSTEM_MNEMONIC (coding_system);
1469 else if (EQ (prop, Qeol_type))
1470 return eol_type_to_symbol (XCODING_SYSTEM_EOL_TYPE (coding_system));
1471 else if (EQ (prop, Qeol_lf))
1472 return XCODING_SYSTEM_EOL_LF (coding_system);
1473 else if (EQ (prop, Qeol_crlf))
1474 return XCODING_SYSTEM_EOL_CRLF (coding_system);
1475 else if (EQ (prop, Qeol_cr))
1476 return XCODING_SYSTEM_EOL_CR (coding_system);
1477 else if (EQ (prop, Qpost_read_conversion))
1478 return XCODING_SYSTEM_POST_READ_CONVERSION (coding_system);
1479 else if (EQ (prop, Qpre_write_conversion))
1480 return XCODING_SYSTEM_PRE_WRITE_CONVERSION (coding_system);
1483 else if (EQ (prop, Qdisable_composition))
1484 return XCODING_SYSTEM_DISABLE_COMPOSITION (coding_system) ? Qt : Qnil;
1485 else if (EQ (prop, Quse_entity_reference))
1486 return XCODING_SYSTEM_USE_ENTITY_REFERENCE (coding_system) ? Qt : Qnil;
1488 else if (type == CODESYS_ISO2022)
1490 if (EQ (prop, Qcharset_g0))
1491 return coding_system_charset (coding_system, 0);
1492 else if (EQ (prop, Qcharset_g1))
1493 return coding_system_charset (coding_system, 1);
1494 else if (EQ (prop, Qcharset_g2))
1495 return coding_system_charset (coding_system, 2);
1496 else if (EQ (prop, Qcharset_g3))
1497 return coding_system_charset (coding_system, 3);
1499 #define FORCE_CHARSET(charset_num) \
1500 (XCODING_SYSTEM_ISO2022_FORCE_CHARSET_ON_OUTPUT \
1501 (coding_system, charset_num) ? Qt : Qnil)
1503 else if (EQ (prop, Qforce_g0_on_output)) return FORCE_CHARSET (0);
1504 else if (EQ (prop, Qforce_g1_on_output)) return FORCE_CHARSET (1);
1505 else if (EQ (prop, Qforce_g2_on_output)) return FORCE_CHARSET (2);
1506 else if (EQ (prop, Qforce_g3_on_output)) return FORCE_CHARSET (3);
1508 #define LISP_BOOLEAN(prop) \
1509 (XCODING_SYSTEM_ISO2022_##prop (coding_system) ? Qt : Qnil)
1511 else if (EQ (prop, Qshort)) return LISP_BOOLEAN (SHORT);
1512 else if (EQ (prop, Qno_ascii_eol)) return LISP_BOOLEAN (NO_ASCII_EOL);
1513 else if (EQ (prop, Qno_ascii_cntl)) return LISP_BOOLEAN (NO_ASCII_CNTL);
1514 else if (EQ (prop, Qseven)) return LISP_BOOLEAN (SEVEN);
1515 else if (EQ (prop, Qlock_shift)) return LISP_BOOLEAN (LOCK_SHIFT);
1516 else if (EQ (prop, Qno_iso6429)) return LISP_BOOLEAN (NO_ISO6429);
1517 else if (EQ (prop, Qescape_quoted)) return LISP_BOOLEAN (ESCAPE_QUOTED);
1519 else if (EQ (prop, Qinput_charset_conversion))
1521 unparse_charset_conversion_specs
1522 (XCODING_SYSTEM (coding_system)->iso2022.input_conv);
1523 else if (EQ (prop, Qoutput_charset_conversion))
1525 unparse_charset_conversion_specs
1526 (XCODING_SYSTEM (coding_system)->iso2022.output_conv);
1530 else if (type == CODESYS_CCL)
1532 if (EQ (prop, Qdecode))
1533 return XCODING_SYSTEM_CCL_DECODE (coding_system);
1534 else if (EQ (prop, Qencode))
1535 return XCODING_SYSTEM_CCL_ENCODE (coding_system);
1543 return Qnil; /* not reached */
1547 /************************************************************************/
1548 /* Coding category functions */
1549 /************************************************************************/
1552 decode_coding_category (Lisp_Object symbol)
1556 CHECK_SYMBOL (symbol);
1557 for (i = 0; i < CODING_CATEGORY_LAST; i++)
1558 if (EQ (coding_category_symbol[i], symbol))
1561 signal_simple_error ("Unrecognized coding category", symbol);
1562 return 0; /* not reached */
1565 DEFUN ("coding-category-list", Fcoding_category_list, 0, 0, 0, /*
1566 Return a list of all recognized coding categories.
1571 Lisp_Object list = Qnil;
1573 for (i = CODING_CATEGORY_LAST - 1; i >= 0; i--)
1574 list = Fcons (coding_category_symbol[i], list);
1578 DEFUN ("set-coding-priority-list", Fset_coding_priority_list, 1, 1, 0, /*
1579 Change the priority order of the coding categories.
1580 LIST should be list of coding categories, in descending order of
1581 priority. Unspecified coding categories will be lower in priority
1582 than all specified ones, in the same relative order they were in
1587 int category_to_priority[CODING_CATEGORY_LAST];
1591 /* First generate a list that maps coding categories to priorities. */
1593 for (i = 0; i < CODING_CATEGORY_LAST; i++)
1594 category_to_priority[i] = -1;
1596 /* Highest priority comes from the specified list. */
1598 EXTERNAL_LIST_LOOP (rest, list)
1600 int cat = decode_coding_category (XCAR (rest));
1602 if (category_to_priority[cat] >= 0)
1603 signal_simple_error ("Duplicate coding category in list", XCAR (rest));
1604 category_to_priority[cat] = i++;
1607 /* Now go through the existing categories by priority to retrieve
1608 the categories not yet specified and preserve their priority
1610 for (j = 0; j < CODING_CATEGORY_LAST; j++)
1612 int cat = fcd->coding_category_by_priority[j];
1613 if (category_to_priority[cat] < 0)
1614 category_to_priority[cat] = i++;
1617 /* Now we need to construct the inverse of the mapping we just
1620 for (i = 0; i < CODING_CATEGORY_LAST; i++)
1621 fcd->coding_category_by_priority[category_to_priority[i]] = i;
1623 /* Phew! That was confusing. */
1627 DEFUN ("coding-priority-list", Fcoding_priority_list, 0, 0, 0, /*
1628 Return a list of coding categories in descending order of priority.
1633 Lisp_Object list = Qnil;
1635 for (i = CODING_CATEGORY_LAST - 1; i >= 0; i--)
1636 list = Fcons (coding_category_symbol[fcd->coding_category_by_priority[i]],
1641 DEFUN ("set-coding-category-system", Fset_coding_category_system, 2, 2, 0, /*
1642 Change the coding system associated with a coding category.
1644 (coding_category, coding_system))
1646 int cat = decode_coding_category (coding_category);
1648 coding_system = Fget_coding_system (coding_system);
1649 fcd->coding_category_system[cat] = coding_system;
1653 DEFUN ("coding-category-system", Fcoding_category_system, 1, 1, 0, /*
1654 Return the coding system associated with a coding category.
1658 int cat = decode_coding_category (coding_category);
1659 Lisp_Object sys = fcd->coding_category_system[cat];
1662 return XCODING_SYSTEM_NAME (sys);
1667 /************************************************************************/
1668 /* Detecting the encoding of data */
1669 /************************************************************************/
1671 struct detection_state
1673 eol_type_t eol_type;
1716 struct iso2022_decoder iso;
1718 int high_byte_count;
1719 unsigned int saw_single_shift:1;
1732 acceptable_control_char_p (int c)
1736 /* Allow and ignore control characters that you might
1737 reasonably see in a text file */
1742 case 8: /* backspace */
1743 case 11: /* vertical tab */
1744 case 12: /* form feed */
1745 case 26: /* MS-DOS C-z junk */
1746 case 31: /* '^_' -- for info */
1754 mask_has_at_most_one_bit_p (int mask)
1756 /* Perhaps the only thing useful you learn from intensive Microsoft
1757 technical interviews */
1758 return (mask & (mask - 1)) == 0;
1762 detect_eol_type (struct detection_state *st, const Extbyte *src,
1763 Lstream_data_count n)
1767 unsigned char c = *(unsigned char *)src++;
1770 if (st->eol.just_saw_cr)
1772 else if (st->eol.seen_anything)
1775 else if (st->eol.just_saw_cr)
1778 st->eol.just_saw_cr = 1;
1780 st->eol.just_saw_cr = 0;
1781 st->eol.seen_anything = 1;
1784 return EOL_AUTODETECT;
1787 /* Attempt to determine the encoding and EOL type of the given text.
1788 Before calling this function for the first type, you must initialize
1789 st->eol_type as appropriate and initialize st->mask to ~0.
1791 st->eol_type holds the determined EOL type, or EOL_AUTODETECT if
1794 st->mask holds the determined coding category mask, or ~0 if only
1795 ASCII has been seen so far.
1799 0 == st->eol_type is EOL_AUTODETECT and/or more than coding category
1800 is present in st->mask
1801 1 == definitive answers are here for both st->eol_type and st->mask
1805 detect_coding_type (struct detection_state *st, const Extbyte *src,
1806 Lstream_data_count n, int just_do_eol)
1808 if (st->eol_type == EOL_AUTODETECT)
1809 st->eol_type = detect_eol_type (st, src, n);
1812 return st->eol_type != EOL_AUTODETECT;
1814 if (!st->seen_non_ascii)
1816 for (; n; n--, src++)
1818 unsigned char c = *(unsigned char *) src;
1819 if ((c < 0x20 && !acceptable_control_char_p (c)) || c >= 0x80)
1821 st->seen_non_ascii = 1;
1823 st->shift_jis.mask = ~0;
1826 st->utf16.mask = ~0;
1828 st->iso2022.mask = ~0;
1838 if (!mask_has_at_most_one_bit_p (st->iso2022.mask))
1839 st->iso2022.mask = detect_coding_iso2022 (st, src, n);
1840 if (!mask_has_at_most_one_bit_p (st->shift_jis.mask))
1841 st->shift_jis.mask = detect_coding_sjis (st, src, n);
1842 if (!mask_has_at_most_one_bit_p (st->big5.mask))
1843 st->big5.mask = detect_coding_big5 (st, src, n);
1844 if (!mask_has_at_most_one_bit_p (st->utf8.mask))
1845 st->utf8.mask = detect_coding_utf8 (st, src, n);
1846 if (!mask_has_at_most_one_bit_p (st->utf16.mask))
1847 st->utf16.mask = detect_coding_utf16 (st, src, n);
1848 if (!mask_has_at_most_one_bit_p (st->ucs4.mask))
1849 st->ucs4.mask = detect_coding_ucs4 (st, src, n);
1852 = st->iso2022.mask | st->shift_jis.mask | st->big5.mask
1853 | st->utf8.mask | st->ucs4.mask;
1856 int retval = mask_has_at_most_one_bit_p (st->mask);
1857 st->mask |= CODING_CATEGORY_NO_CONVERSION_MASK;
1858 return retval && st->eol_type != EOL_AUTODETECT;
1863 coding_system_from_mask (int mask)
1867 /* If the file was entirely or basically ASCII, use the
1868 default value of `buffer-file-coding-system'. */
1869 Lisp_Object retval =
1870 XBUFFER (Vbuffer_defaults)->buffer_file_coding_system;
1873 retval = Ffind_coding_system (retval);
1877 (Qbad_variable, Qwarning,
1878 "Invalid `default-buffer-file-coding-system', set to nil");
1879 XBUFFER (Vbuffer_defaults)->buffer_file_coding_system = Qnil;
1883 retval = Fget_coding_system (Qraw_text);
1891 mask = postprocess_iso2022_mask (mask);
1893 /* Look through the coding categories by priority and find
1894 the first one that is allowed. */
1895 for (i = 0; i < CODING_CATEGORY_LAST; i++)
1897 cat = fcd->coding_category_by_priority[i];
1898 if ((mask & (1 << cat)) &&
1899 !NILP (fcd->coding_category_system[cat]))
1903 return fcd->coding_category_system[cat];
1905 return Fget_coding_system (Qraw_text);
1909 /* Given a seekable read stream and potential coding system and EOL type
1910 as specified, do any autodetection that is called for. If the
1911 coding system and/or EOL type are not `autodetect', they will be left
1912 alone; but this function will never return an autodetect coding system
1915 This function does not automatically fetch subsidiary coding systems;
1916 that should be unnecessary with the explicit eol-type argument. */
1918 #define LENGTH(string_constant) (sizeof (string_constant) - 1)
1919 /* number of leading lines to check for a coding cookie */
1920 #define LINES_TO_CHECK 2
1923 determine_real_coding_system (Lstream *stream, Lisp_Object *codesys_in_out,
1924 eol_type_t *eol_type_in_out)
1926 struct detection_state decst;
1928 if (*eol_type_in_out == EOL_AUTODETECT)
1929 *eol_type_in_out = XCODING_SYSTEM_EOL_TYPE (*codesys_in_out);
1932 decst.eol_type = *eol_type_in_out;
1935 /* If autodetection is called for, do it now. */
1936 if (XCODING_SYSTEM_TYPE (*codesys_in_out) == CODESYS_AUTODETECT
1937 || *eol_type_in_out == EOL_AUTODETECT)
1940 Lisp_Object coding_system = Qnil;
1942 Lstream_data_count nread = Lstream_read (stream, buf, sizeof (buf));
1944 int lines_checked = 0;
1946 /* Look for initial "-*-"; mode line prefix */
1948 scan_end = buf + nread - LENGTH ("-*-coding:?-*-");
1950 && lines_checked < LINES_TO_CHECK;
1952 if (*p == '-' && *(p+1) == '*' && *(p+2) == '-')
1954 Extbyte *local_vars_beg = p + 3;
1955 /* Look for final "-*-"; mode line suffix */
1956 for (p = local_vars_beg,
1957 scan_end = buf + nread - LENGTH ("-*-");
1959 && lines_checked < LINES_TO_CHECK;
1961 if (*p == '-' && *(p+1) == '*' && *(p+2) == '-')
1963 Extbyte *suffix = p;
1964 /* Look for "coding:" */
1965 for (p = local_vars_beg,
1966 scan_end = suffix - LENGTH ("coding:?");
1969 if (memcmp ("coding:", p, LENGTH ("coding:")) == 0
1970 && (p == local_vars_beg
1971 || (*(p-1) == ' ' ||
1977 p += LENGTH ("coding:");
1978 while (*p == ' ' || *p == '\t') p++;
1980 /* Get coding system name */
1981 save = *suffix; *suffix = '\0';
1982 /* Characters valid in a MIME charset name (rfc 1521),
1983 and in a Lisp symbol name. */
1984 n = strspn ( (char *) p,
1985 "ABCDEFGHIJKLMNOPQRSTUVWXYZ"
1986 "abcdefghijklmnopqrstuvwxyz"
1992 save = p[n]; p[n] = '\0';
1994 Ffind_coding_system (intern ((char *) p));
2001 /* #### file must use standard EOLs or we miss 2d line */
2002 /* #### not to mention this is broken for UTF-16 DOS files */
2003 else if (*p == '\n' || *p == '\r')
2006 /* skip past multibyte (DOS) newline */
2007 if (*p == '\r' && *(p+1) == '\n') p++;
2011 /* #### file must use standard EOLs or we miss 2d line */
2012 /* #### not to mention this is broken for UTF-16 DOS files */
2013 else if (*p == '\n' || *p == '\r')
2016 /* skip past multibyte (DOS) newline */
2017 if (*p == '\r' && *(p+1) == '\n') p++;
2020 if (NILP (coding_system))
2023 if (detect_coding_type (&decst, buf, nread,
2024 XCODING_SYSTEM_TYPE (*codesys_in_out)
2025 != CODESYS_AUTODETECT))
2027 nread = Lstream_read (stream, buf, sizeof (buf));
2033 else if (XCODING_SYSTEM_TYPE (*codesys_in_out) == CODESYS_AUTODETECT
2034 && XCODING_SYSTEM_EOL_TYPE (coding_system) == EOL_AUTODETECT)
2037 if (detect_coding_type (&decst, buf, nread, 1))
2039 nread = Lstream_read (stream, buf, sizeof (buf));
2045 *eol_type_in_out = decst.eol_type;
2046 if (XCODING_SYSTEM_TYPE (*codesys_in_out) == CODESYS_AUTODETECT)
2048 if (NILP (coding_system))
2049 *codesys_in_out = coding_system_from_mask (decst.mask);
2051 *codesys_in_out = coding_system;
2055 /* If we absolutely can't determine the EOL type, just assume LF. */
2056 if (*eol_type_in_out == EOL_AUTODETECT)
2057 *eol_type_in_out = EOL_LF;
2059 Lstream_rewind (stream);
2062 DEFUN ("detect-coding-region", Fdetect_coding_region, 2, 3, 0, /*
2063 Detect coding system of the text in the region between START and END.
2064 Return a list of possible coding systems ordered by priority.
2065 If only ASCII characters are found, return 'undecided or one of
2066 its subsidiary coding systems according to a detected end-of-line
2067 type. Optional arg BUFFER defaults to the current buffer.
2069 (start, end, buffer))
2071 Lisp_Object val = Qnil;
2072 struct buffer *buf = decode_buffer (buffer, 0);
2074 Lisp_Object instream, lb_instream;
2075 Lstream *istr, *lb_istr;
2076 struct detection_state decst;
2077 struct gcpro gcpro1, gcpro2;
2079 get_buffer_range_char (buf, start, end, &b, &e, 0);
2080 lb_instream = make_lisp_buffer_input_stream (buf, b, e, 0);
2081 lb_istr = XLSTREAM (lb_instream);
2082 instream = make_encoding_input_stream (lb_istr, Fget_coding_system (Qbinary));
2083 istr = XLSTREAM (instream);
2084 GCPRO2 (instream, lb_instream);
2086 decst.eol_type = EOL_AUTODETECT;
2090 Extbyte random_buffer[4096];
2091 Lstream_data_count nread = Lstream_read (istr, random_buffer, sizeof (random_buffer));
2095 if (detect_coding_type (&decst, random_buffer, nread, 0))
2099 if (decst.mask == ~0)
2100 val = subsidiary_coding_system (Fget_coding_system (Qundecided),
2108 decst.mask = postprocess_iso2022_mask (decst.mask);
2110 for (i = CODING_CATEGORY_LAST - 1; i >= 0; i--)
2112 int sys = fcd->coding_category_by_priority[i];
2113 if (decst.mask & (1 << sys))
2115 Lisp_Object codesys = fcd->coding_category_system[sys];
2116 if (!NILP (codesys))
2117 codesys = subsidiary_coding_system (codesys, decst.eol_type);
2118 val = Fcons (codesys, val);
2122 Lstream_close (istr);
2124 Lstream_delete (istr);
2125 Lstream_delete (lb_istr);
2130 /************************************************************************/
2131 /* Converting to internal Mule format ("decoding") */
2132 /************************************************************************/
2134 /* A decoding stream is a stream used for decoding text (i.e.
2135 converting from some external format to internal format).
2136 The decoding-stream object keeps track of the actual coding
2137 stream, the stream that is at the other end, and data that
2138 needs to be persistent across the lifetime of the stream. */
2140 /* Handle the EOL stuff related to just-read-in character C.
2141 EOL_TYPE is the EOL type of the coding stream.
2142 FLAGS is the current value of FLAGS in the coding stream, and may
2143 be modified by this macro. (The macro only looks at the
2144 CODING_STATE_CR flag.) DST is the Dynarr to which the decoded
2145 bytes are to be written. You need to also define a local goto
2146 label "label_continue_loop" that is at the end of the main
2147 character-reading loop.
2149 If C is a CR character, then this macro handles it entirely and
2150 jumps to label_continue_loop. Otherwise, this macro does not add
2151 anything to DST, and continues normally. You should continue
2152 processing C normally after this macro. */
2154 #define DECODE_HANDLE_EOL_TYPE(eol_type, c, flags, dst) \
2158 if (eol_type == EOL_CR) \
2159 Dynarr_add (dst, '\n'); \
2160 else if (eol_type != EOL_CRLF || flags & CODING_STATE_CR) \
2161 Dynarr_add (dst, c); \
2163 flags |= CODING_STATE_CR; \
2164 goto label_continue_loop; \
2166 else if (flags & CODING_STATE_CR) \
2167 { /* eol_type == CODING_SYSTEM_EOL_CRLF */ \
2169 Dynarr_add (dst, '\r'); \
2170 flags &= ~CODING_STATE_CR; \
2174 /* C should be a binary character in the range 0 - 255; convert
2175 to internal format and add to Dynarr DST. */
2178 #define DECODE_ADD_BINARY_CHAR(c, dst) \
2180 if (BYTE_ASCII_P (c)) \
2181 Dynarr_add (dst, c); \
2184 Dynarr_add (dst, (c >> 6) | 0xc0); \
2185 Dynarr_add (dst, (c & 0x3f) | 0x80); \
2189 INLINE_HEADER void DECODE_ADD_UCS_CHAR(Emchar c, unsigned_char_dynarr* dst);
2191 DECODE_ADD_UCS_CHAR(Emchar c, unsigned_char_dynarr* dst)
2195 Dynarr_add (dst, c);
2197 else if ( c <= 0x7ff )
2199 Dynarr_add (dst, (c >> 6) | 0xc0);
2200 Dynarr_add (dst, (c & 0x3f) | 0x80);
2202 else if ( c <= 0xffff )
2204 Dynarr_add (dst, (c >> 12) | 0xe0);
2205 Dynarr_add (dst, ((c >> 6) & 0x3f) | 0x80);
2206 Dynarr_add (dst, (c & 0x3f) | 0x80);
2208 else if ( c <= 0x1fffff )
2210 Dynarr_add (dst, (c >> 18) | 0xf0);
2211 Dynarr_add (dst, ((c >> 12) & 0x3f) | 0x80);
2212 Dynarr_add (dst, ((c >> 6) & 0x3f) | 0x80);
2213 Dynarr_add (dst, (c & 0x3f) | 0x80);
2215 else if ( c <= 0x3ffffff )
2217 Dynarr_add (dst, (c >> 24) | 0xf8);
2218 Dynarr_add (dst, ((c >> 18) & 0x3f) | 0x80);
2219 Dynarr_add (dst, ((c >> 12) & 0x3f) | 0x80);
2220 Dynarr_add (dst, ((c >> 6) & 0x3f) | 0x80);
2221 Dynarr_add (dst, (c & 0x3f) | 0x80);
2225 Dynarr_add (dst, (c >> 30) | 0xfc);
2226 Dynarr_add (dst, ((c >> 24) & 0x3f) | 0x80);
2227 Dynarr_add (dst, ((c >> 18) & 0x3f) | 0x80);
2228 Dynarr_add (dst, ((c >> 12) & 0x3f) | 0x80);
2229 Dynarr_add (dst, ((c >> 6) & 0x3f) | 0x80);
2230 Dynarr_add (dst, (c & 0x3f) | 0x80);
2234 #define DECODE_ADD_BINARY_CHAR(c, dst) \
2236 if (BYTE_ASCII_P (c)) \
2237 Dynarr_add (dst, c); \
2238 else if (BYTE_C1_P (c)) \
2240 Dynarr_add (dst, LEADING_BYTE_CONTROL_1); \
2241 Dynarr_add (dst, c + 0x20); \
2245 Dynarr_add (dst, LEADING_BYTE_LATIN_ISO8859_1); \
2246 Dynarr_add (dst, c); \
2251 #define DECODE_OUTPUT_PARTIAL_CHAR(ch) \
2255 DECODE_ADD_BINARY_CHAR (ch, dst); \
2260 #define DECODE_HANDLE_END_OF_CONVERSION(flags, ch, dst) \
2262 if (flags & CODING_STATE_END) \
2264 DECODE_OUTPUT_PARTIAL_CHAR (ch); \
2265 if (flags & CODING_STATE_CR) \
2266 Dynarr_add (dst, '\r'); \
2270 #define DECODING_STREAM_DATA(stream) LSTREAM_TYPE_DATA (stream, decoding)
2272 #define ER_BUF_SIZE 24
2274 struct decoding_stream
2276 /* Coding system that governs the conversion. */
2277 Lisp_Coding_System *codesys;
2279 /* Stream that we read the encoded data from or
2280 write the decoded data to. */
2283 /* If we are reading, then we can return only a fixed amount of
2284 data, so if the conversion resulted in too much data, we store it
2285 here for retrieval the next time around. */
2286 unsigned_char_dynarr *runoff;
2288 /* FLAGS holds flags indicating the current state of the decoding.
2289 Some of these flags are dependent on the coding system. */
2292 /* CPOS holds a partially built-up code-point of character. */
2295 /* EOL_TYPE specifies the type of end-of-line conversion that
2296 currently applies. We need to keep this separate from the
2297 EOL type stored in CODESYS because the latter might indicate
2298 automatic EOL-type detection while the former will always
2299 indicate a particular EOL type. */
2300 eol_type_t eol_type;
2302 /* Additional ISO2022 information. We define the structure above
2303 because it's also needed by the detection routines. */
2304 struct iso2022_decoder iso2022;
2306 /* Additional information (the state of the running CCL program)
2307 used by the CCL decoder. */
2308 struct ccl_program ccl;
2310 /* counter for UTF-8 or UCS-4 */
2311 unsigned char counter;
2314 unsigned char er_counter;
2315 unsigned char er_buf[ER_BUF_SIZE];
2317 unsigned combined_char_count;
2318 Emchar combined_chars[16];
2319 Lisp_Object combining_table;
2321 struct detection_state decst;
2324 static Lstream_data_count decoding_reader (Lstream *stream,
2325 unsigned char *data, Lstream_data_count size);
2326 static Lstream_data_count decoding_writer (Lstream *stream,
2327 const unsigned char *data, Lstream_data_count size);
2328 static int decoding_rewinder (Lstream *stream);
2329 static int decoding_seekable_p (Lstream *stream);
2330 static int decoding_flusher (Lstream *stream);
2331 static int decoding_closer (Lstream *stream);
2333 static Lisp_Object decoding_marker (Lisp_Object stream);
2335 DEFINE_LSTREAM_IMPLEMENTATION ("decoding", lstream_decoding,
2336 sizeof (struct decoding_stream));
2339 decoding_marker (Lisp_Object stream)
2341 Lstream *str = DECODING_STREAM_DATA (XLSTREAM (stream))->other_end;
2342 Lisp_Object str_obj;
2344 /* We do not need to mark the coding systems or charsets stored
2345 within the stream because they are stored in a global list
2346 and automatically marked. */
2348 XSETLSTREAM (str_obj, str);
2349 mark_object (str_obj);
2350 if (str->imp->marker)
2351 return (str->imp->marker) (str_obj);
2356 /* Read SIZE bytes of data and store it into DATA. We are a decoding stream
2357 so we read data from the other end, decode it, and store it into DATA. */
2359 static Lstream_data_count
2360 decoding_reader (Lstream *stream, unsigned char *data, Lstream_data_count size)
2362 struct decoding_stream *str = DECODING_STREAM_DATA (stream);
2363 unsigned char *orig_data = data;
2364 Lstream_data_count read_size;
2365 int error_occurred = 0;
2367 /* We need to interface to mule_decode(), which expects to take some
2368 amount of data and store the result into a Dynarr. We have
2369 mule_decode() store into str->runoff, and take data from there
2372 /* We loop until we have enough data, reading chunks from the other
2373 end and decoding it. */
2376 /* Take data from the runoff if we can. Make sure to take at
2377 most SIZE bytes, and delete the data from the runoff. */
2378 if (Dynarr_length (str->runoff) > 0)
2380 Lstream_data_count chunk = min (size, (Lstream_data_count) Dynarr_length (str->runoff));
2381 memcpy (data, Dynarr_atp (str->runoff, 0), chunk);
2382 Dynarr_delete_many (str->runoff, 0, chunk);
2388 break; /* No more room for data */
2390 if (str->flags & CODING_STATE_END)
2391 /* This means that on the previous iteration, we hit the EOF on
2392 the other end. We loop once more so that mule_decode() can
2393 output any final stuff it may be holding, or any "go back
2394 to a sane state" escape sequences. (This latter makes sense
2395 during encoding.) */
2398 /* Exhausted the runoff, so get some more. DATA has at least
2399 SIZE bytes left of storage in it, so it's OK to read directly
2400 into it. (We'll be overwriting above, after we've decoded it
2401 into the runoff.) */
2402 read_size = Lstream_read (str->other_end, data, size);
2409 /* There might be some more end data produced in the translation.
2410 See the comment above. */
2411 str->flags |= CODING_STATE_END;
2412 mule_decode (stream, (Extbyte *) data, str->runoff, read_size);
2415 if (data - orig_data == 0)
2416 return error_occurred ? -1 : 0;
2418 return data - orig_data;
2421 static Lstream_data_count
2422 decoding_writer (Lstream *stream, const unsigned char *data, Lstream_data_count size)
2424 struct decoding_stream *str = DECODING_STREAM_DATA (stream);
2425 Lstream_data_count retval;
2427 /* Decode all our data into the runoff, and then attempt to write
2428 it all out to the other end. Remove whatever chunk we succeeded
2430 mule_decode (stream, (Extbyte *) data, str->runoff, size);
2431 retval = Lstream_write (str->other_end, Dynarr_atp (str->runoff, 0),
2432 Dynarr_length (str->runoff));
2434 Dynarr_delete_many (str->runoff, 0, retval);
2435 /* Do NOT return retval. The return value indicates how much
2436 of the incoming data was written, not how many bytes were
2442 reset_decoding_stream (struct decoding_stream *str)
2445 if (CODING_SYSTEM_TYPE (str->codesys) == CODESYS_ISO2022)
2447 Lisp_Object coding_system;
2448 XSETCODING_SYSTEM (coding_system, str->codesys);
2449 reset_iso2022 (coding_system, &str->iso2022);
2451 else if (CODING_SYSTEM_TYPE (str->codesys) == CODESYS_CCL)
2453 setup_ccl_program (&str->ccl, CODING_SYSTEM_CCL_DECODE (str->codesys));
2458 str->er_counter = 0;
2459 str->combined_char_count = 0;
2460 str->combining_table = Qnil;
2462 if (CODING_SYSTEM_TYPE (str->codesys) == CODESYS_AUTODETECT
2463 || CODING_SYSTEM_EOL_TYPE (str->codesys) == EOL_AUTODETECT)
2466 str->decst.eol_type = EOL_AUTODETECT;
2467 str->decst.mask = ~0;
2469 str->flags = str->cpos = 0;
2473 decoding_rewinder (Lstream *stream)
2475 struct decoding_stream *str = DECODING_STREAM_DATA (stream);
2476 reset_decoding_stream (str);
2477 Dynarr_reset (str->runoff);
2478 return Lstream_rewind (str->other_end);
2482 decoding_seekable_p (Lstream *stream)
2484 struct decoding_stream *str = DECODING_STREAM_DATA (stream);
2485 return Lstream_seekable_p (str->other_end);
2489 decoding_flusher (Lstream *stream)
2491 struct decoding_stream *str = DECODING_STREAM_DATA (stream);
2492 return Lstream_flush (str->other_end);
2496 decoding_closer (Lstream *stream)
2498 struct decoding_stream *str = DECODING_STREAM_DATA (stream);
2499 if (stream->flags & LSTREAM_FL_WRITE)
2501 str->flags |= CODING_STATE_END;
2502 decoding_writer (stream, 0, 0);
2504 Dynarr_free (str->runoff);
2506 #ifdef ENABLE_COMPOSITE_CHARS
2507 if (str->iso2022.composite_chars)
2508 Dynarr_free (str->iso2022.composite_chars);
2511 return Lstream_close (str->other_end);
2515 decoding_stream_coding_system (Lstream *stream)
2517 Lisp_Object coding_system;
2518 struct decoding_stream *str = DECODING_STREAM_DATA (stream);
2520 XSETCODING_SYSTEM (coding_system, str->codesys);
2521 return subsidiary_coding_system (coding_system, str->eol_type);
2525 set_decoding_stream_coding_system (Lstream *lstr, Lisp_Object codesys)
2527 Lisp_Coding_System *cs = XCODING_SYSTEM (codesys);
2528 struct decoding_stream *str = DECODING_STREAM_DATA (lstr);
2530 if (CODING_SYSTEM_EOL_TYPE (cs) != EOL_AUTODETECT)
2531 str->eol_type = CODING_SYSTEM_EOL_TYPE (cs);
2532 reset_decoding_stream (str);
2535 /* WARNING WARNING WARNING WARNING!!!!! If you open up a decoding
2536 stream for writing, no automatic code detection will be performed.
2537 The reason for this is that automatic code detection requires a
2538 seekable input. Things will also fail if you open a decoding
2539 stream for reading using a non-fully-specified coding system and
2540 a non-seekable input stream. */
2543 make_decoding_stream_1 (Lstream *stream, Lisp_Object codesys,
2546 Lstream *lstr = Lstream_new (lstream_decoding, mode);
2547 struct decoding_stream *str = DECODING_STREAM_DATA (lstr);
2551 str->other_end = stream;
2552 str->runoff = (unsigned_char_dynarr *) Dynarr_new (unsigned_char);
2553 str->eol_type = EOL_AUTODETECT;
2554 if (!strcmp (mode, "r")
2555 && Lstream_seekable_p (stream))
2556 /* We can determine the coding system now. */
2557 determine_real_coding_system (stream, &codesys, &str->eol_type);
2558 set_decoding_stream_coding_system (lstr, codesys);
2559 str->decst.eol_type = str->eol_type;
2560 str->decst.mask = ~0;
2561 XSETLSTREAM (obj, lstr);
2566 make_decoding_input_stream (Lstream *stream, Lisp_Object codesys)
2568 return make_decoding_stream_1 (stream, codesys, "r");
2572 make_decoding_output_stream (Lstream *stream, Lisp_Object codesys)
2574 return make_decoding_stream_1 (stream, codesys, "w");
2577 /* Note: the decode_coding_* functions all take the same
2578 arguments as mule_decode(), which is to say some SRC data of
2579 size N, which is to be stored into dynamic array DST.
2580 DECODING is the stream within which the decoding is
2581 taking place, but no data is actually read from or
2582 written to that stream; that is handled in decoding_reader()
2583 or decoding_writer(). This allows the same functions to
2584 be used for both reading and writing. */
2587 mule_decode (Lstream *decoding, const Extbyte *src,
2588 unsigned_char_dynarr *dst, Lstream_data_count n)
2590 struct decoding_stream *str = DECODING_STREAM_DATA (decoding);
2592 /* If necessary, do encoding-detection now. We do this when
2593 we're a writing stream or a non-seekable reading stream,
2594 meaning that we can't just process the whole input,
2595 rewind, and start over. */
2597 if (CODING_SYSTEM_TYPE (str->codesys) == CODESYS_AUTODETECT ||
2598 str->eol_type == EOL_AUTODETECT)
2600 Lisp_Object codesys;
2602 XSETCODING_SYSTEM (codesys, str->codesys);
2603 detect_coding_type (&str->decst, src, n,
2604 CODING_SYSTEM_TYPE (str->codesys) !=
2605 CODESYS_AUTODETECT);
2606 if (CODING_SYSTEM_TYPE (str->codesys) == CODESYS_AUTODETECT &&
2607 str->decst.mask != ~0)
2608 /* #### This is cheesy. What we really ought to do is
2609 buffer up a certain amount of data so as to get a
2610 less random result. */
2611 codesys = coding_system_from_mask (str->decst.mask);
2612 str->eol_type = str->decst.eol_type;
2613 if (XCODING_SYSTEM (codesys) != str->codesys)
2615 /* Preserve the CODING_STATE_END flag in case it was set.
2616 If we erase it, bad things might happen. */
2617 int was_end = str->flags & CODING_STATE_END;
2618 set_decoding_stream_coding_system (decoding, codesys);
2620 str->flags |= CODING_STATE_END;
2624 switch (CODING_SYSTEM_TYPE (str->codesys))
2627 case CODESYS_INTERNAL:
2628 Dynarr_add_many (dst, src, n);
2631 case CODESYS_AUTODETECT:
2632 /* If we got this far and still haven't decided on the coding
2633 system, then do no conversion. */
2634 case CODESYS_NO_CONVERSION:
2635 decode_coding_no_conversion (decoding, src, dst, n);
2638 case CODESYS_SHIFT_JIS:
2639 decode_coding_sjis (decoding, src, dst, n);
2642 decode_coding_big5 (decoding, src, dst, n);
2645 decode_coding_ucs4 (decoding, src, dst, n);
2648 decode_coding_utf16 (decoding, src, dst, n);
2651 decode_coding_utf8 (decoding, src, dst, n);
2654 str->ccl.last_block = str->flags & CODING_STATE_END;
2655 /* When applying ccl program to stream, MUST NOT set NULL
2657 ccl_driver (&str->ccl, (src ? (unsigned char *)src : (unsigned char*)""),
2658 dst, n, 0, CCL_MODE_DECODING);
2660 case CODESYS_ISO2022:
2661 decode_coding_iso2022 (decoding, src, dst, n);
2669 DEFUN ("decode-coding-region", Fdecode_coding_region, 3, 4, 0, /*
2670 Decode the text between START and END which is encoded in CODING-SYSTEM.
2671 This is useful if you've read in encoded text from a file without decoding
2672 it (e.g. you read in a JIS-formatted file but used the `binary' or
2673 `no-conversion' coding system, so that it shows up as "^[$B!<!+^[(B").
2674 Return length of decoded text.
2675 BUFFER defaults to the current buffer if unspecified.
2677 (start, end, coding_system, buffer))
2680 struct buffer *buf = decode_buffer (buffer, 0);
2681 Lisp_Object instream, lb_outstream, de_outstream, outstream;
2682 Lstream *istr, *ostr;
2683 struct gcpro gcpro1, gcpro2, gcpro3, gcpro4;
2685 get_buffer_range_char (buf, start, end, &b, &e, 0);
2687 barf_if_buffer_read_only (buf, b, e);
2689 coding_system = Fget_coding_system (coding_system);
2690 instream = make_lisp_buffer_input_stream (buf, b, e, 0);
2691 lb_outstream = make_lisp_buffer_output_stream (buf, b, 0);
2692 de_outstream = make_decoding_output_stream (XLSTREAM (lb_outstream),
2694 outstream = make_encoding_output_stream (XLSTREAM (de_outstream),
2695 Fget_coding_system (Qbinary));
2696 istr = XLSTREAM (instream);
2697 ostr = XLSTREAM (outstream);
2698 GCPRO4 (instream, lb_outstream, de_outstream, outstream);
2700 /* The chain of streams looks like this:
2702 [BUFFER] <----- send through
2703 ------> [ENCODE AS BINARY]
2704 ------> [DECODE AS SPECIFIED]
2710 char tempbuf[1024]; /* some random amount */
2711 Bufpos newpos, even_newer_pos;
2712 Bufpos oldpos = lisp_buffer_stream_startpos (istr);
2713 Lstream_data_count size_in_bytes = Lstream_read (istr, tempbuf, sizeof (tempbuf));
2717 newpos = lisp_buffer_stream_startpos (istr);
2718 Lstream_write (ostr, tempbuf, size_in_bytes);
2719 even_newer_pos = lisp_buffer_stream_startpos (istr);
2720 buffer_delete_range (buf, even_newer_pos - (newpos - oldpos),
2723 Lstream_close (istr);
2724 Lstream_close (ostr);
2726 Lstream_delete (istr);
2727 Lstream_delete (ostr);
2728 Lstream_delete (XLSTREAM (de_outstream));
2729 Lstream_delete (XLSTREAM (lb_outstream));
2734 /************************************************************************/
2735 /* Converting to an external encoding ("encoding") */
2736 /************************************************************************/
2738 /* An encoding stream is an output stream. When you create the
2739 stream, you specify the coding system that governs the encoding
2740 and another stream that the resulting encoded data is to be
2741 sent to, and then start sending data to it. */
2743 #define ENCODING_STREAM_DATA(stream) LSTREAM_TYPE_DATA (stream, encoding)
2745 struct encoding_stream
2747 /* Coding system that governs the conversion. */
2748 Lisp_Coding_System *codesys;
2750 /* Stream that we read the encoded data from or
2751 write the decoded data to. */
2754 /* If we are reading, then we can return only a fixed amount of
2755 data, so if the conversion resulted in too much data, we store it
2756 here for retrieval the next time around. */
2757 unsigned_char_dynarr *runoff;
2759 /* FLAGS holds flags indicating the current state of the encoding.
2760 Some of these flags are dependent on the coding system. */
2763 /* CH holds a partially built-up character. Since we only deal
2764 with one- and two-byte characters at the moment, we only use
2765 this to store the first byte of a two-byte character. */
2768 /* Additional information used by the ISO2022 encoder. */
2771 /* CHARSET holds the character sets currently assigned to the G0
2772 through G3 registers. It is initialized from the array
2773 INITIAL_CHARSET in CODESYS. */
2774 Lisp_Object charset[4];
2776 /* Which registers are currently invoked into the left (GL) and
2777 right (GR) halves of the 8-bit encoding space? */
2778 int register_left, register_right;
2780 /* Whether we need to explicitly designate the charset in the
2781 G? register before using it. It is initialized from the
2782 array FORCE_CHARSET_ON_OUTPUT in CODESYS. */
2783 unsigned char force_charset_on_output[4];
2785 /* Other state variables that need to be preserved across
2787 Lisp_Object current_charset;
2789 int current_char_boundary;
2792 void (*encode_char) (struct encoding_stream *str, Emchar c,
2793 unsigned_char_dynarr *dst, unsigned int *flags);
2794 void (*finish) (struct encoding_stream *str,
2795 unsigned_char_dynarr *dst, unsigned int *flags);
2797 /* Additional information (the state of the running CCL program)
2798 used by the CCL encoder. */
2799 struct ccl_program ccl;
2803 static Lstream_data_count encoding_reader (Lstream *stream, unsigned char *data, Lstream_data_count size);
2804 static Lstream_data_count encoding_writer (Lstream *stream, const unsigned char *data,
2805 Lstream_data_count size);
2806 static int encoding_rewinder (Lstream *stream);
2807 static int encoding_seekable_p (Lstream *stream);
2808 static int encoding_flusher (Lstream *stream);
2809 static int encoding_closer (Lstream *stream);
2811 static Lisp_Object encoding_marker (Lisp_Object stream);
2813 DEFINE_LSTREAM_IMPLEMENTATION ("encoding", lstream_encoding,
2814 sizeof (struct encoding_stream));
2817 encoding_marker (Lisp_Object stream)
2819 Lstream *str = ENCODING_STREAM_DATA (XLSTREAM (stream))->other_end;
2820 Lisp_Object str_obj;
2822 /* We do not need to mark the coding systems or charsets stored
2823 within the stream because they are stored in a global list
2824 and automatically marked. */
2826 XSETLSTREAM (str_obj, str);
2827 mark_object (str_obj);
2828 if (str->imp->marker)
2829 return (str->imp->marker) (str_obj);
2834 /* Read SIZE bytes of data and store it into DATA. We are a encoding stream
2835 so we read data from the other end, encode it, and store it into DATA. */
2837 static Lstream_data_count
2838 encoding_reader (Lstream *stream, unsigned char *data, Lstream_data_count size)
2840 struct encoding_stream *str = ENCODING_STREAM_DATA (stream);
2841 unsigned char *orig_data = data;
2842 Lstream_data_count read_size;
2843 int error_occurred = 0;
2845 /* We need to interface to mule_encode(), which expects to take some
2846 amount of data and store the result into a Dynarr. We have
2847 mule_encode() store into str->runoff, and take data from there
2850 /* We loop until we have enough data, reading chunks from the other
2851 end and encoding it. */
2854 /* Take data from the runoff if we can. Make sure to take at
2855 most SIZE bytes, and delete the data from the runoff. */
2856 if (Dynarr_length (str->runoff) > 0)
2858 int chunk = min ((int) size, Dynarr_length (str->runoff));
2859 memcpy (data, Dynarr_atp (str->runoff, 0), chunk);
2860 Dynarr_delete_many (str->runoff, 0, chunk);
2866 break; /* No more room for data */
2868 if (str->flags & CODING_STATE_END)
2869 /* This means that on the previous iteration, we hit the EOF on
2870 the other end. We loop once more so that mule_encode() can
2871 output any final stuff it may be holding, or any "go back
2872 to a sane state" escape sequences. (This latter makes sense
2873 during encoding.) */
2876 /* Exhausted the runoff, so get some more. DATA at least SIZE bytes
2877 left of storage in it, so it's OK to read directly into it.
2878 (We'll be overwriting above, after we've encoded it into the
2880 read_size = Lstream_read (str->other_end, data, size);
2887 /* There might be some more end data produced in the translation.
2888 See the comment above. */
2889 str->flags |= CODING_STATE_END;
2890 mule_encode (stream, data, str->runoff, read_size);
2893 if (data == orig_data)
2894 return error_occurred ? -1 : 0;
2896 return data - orig_data;
2899 static Lstream_data_count
2900 encoding_writer (Lstream *stream, const unsigned char *data, Lstream_data_count size)
2902 struct encoding_stream *str = ENCODING_STREAM_DATA (stream);
2903 Lstream_data_count retval;
2905 /* Encode all our data into the runoff, and then attempt to write
2906 it all out to the other end. Remove whatever chunk we succeeded
2908 mule_encode (stream, data, str->runoff, size);
2909 retval = Lstream_write (str->other_end, Dynarr_atp (str->runoff, 0),
2910 Dynarr_length (str->runoff));
2912 Dynarr_delete_many (str->runoff, 0, retval);
2913 /* Do NOT return retval. The return value indicates how much
2914 of the incoming data was written, not how many bytes were
2920 reset_encoding_stream (struct encoding_stream *str)
2923 switch (CODING_SYSTEM_TYPE (str->codesys))
2925 case CODESYS_ISO2022:
2929 str->encode_char = &char_encode_iso2022;
2930 str->finish = &char_finish_iso2022;
2931 for (i = 0; i < 4; i++)
2933 str->iso2022.charset[i] =
2934 CODING_SYSTEM_ISO2022_INITIAL_CHARSET (str->codesys, i);
2935 str->iso2022.force_charset_on_output[i] =
2936 CODING_SYSTEM_ISO2022_FORCE_CHARSET_ON_OUTPUT (str->codesys, i);
2938 str->iso2022.register_left = 0;
2939 str->iso2022.register_right = 1;
2940 str->iso2022.current_charset = Qnil;
2941 str->iso2022.current_half = 0;
2945 setup_ccl_program (&str->ccl, CODING_SYSTEM_CCL_ENCODE (str->codesys));
2948 str->encode_char = &char_encode_utf8;
2949 str->finish = &char_finish_utf8;
2952 str->encode_char = &char_encode_utf16;
2953 str->finish = &char_finish_utf16;
2956 str->encode_char = &char_encode_ucs4;
2957 str->finish = &char_finish_ucs4;
2959 case CODESYS_SHIFT_JIS:
2960 str->encode_char = &char_encode_shift_jis;
2961 str->finish = &char_finish_shift_jis;
2964 str->encode_char = &char_encode_big5;
2965 str->finish = &char_finish_big5;
2971 str->iso2022.current_char_boundary = 0;
2972 str->flags = str->ch = 0;
2976 encoding_rewinder (Lstream *stream)
2978 struct encoding_stream *str = ENCODING_STREAM_DATA (stream);
2979 reset_encoding_stream (str);
2980 Dynarr_reset (str->runoff);
2981 return Lstream_rewind (str->other_end);
2985 encoding_seekable_p (Lstream *stream)
2987 struct encoding_stream *str = ENCODING_STREAM_DATA (stream);
2988 return Lstream_seekable_p (str->other_end);
2992 encoding_flusher (Lstream *stream)
2994 struct encoding_stream *str = ENCODING_STREAM_DATA (stream);
2995 return Lstream_flush (str->other_end);
2999 encoding_closer (Lstream *stream)
3001 struct encoding_stream *str = ENCODING_STREAM_DATA (stream);
3002 if (stream->flags & LSTREAM_FL_WRITE)
3004 str->flags |= CODING_STATE_END;
3005 encoding_writer (stream, 0, 0);
3007 Dynarr_free (str->runoff);
3008 return Lstream_close (str->other_end);
3012 encoding_stream_coding_system (Lstream *stream)
3014 Lisp_Object coding_system;
3015 struct encoding_stream *str = ENCODING_STREAM_DATA (stream);
3017 XSETCODING_SYSTEM (coding_system, str->codesys);
3018 return coding_system;
3022 set_encoding_stream_coding_system (Lstream *lstr, Lisp_Object codesys)
3024 Lisp_Coding_System *cs = XCODING_SYSTEM (codesys);
3025 struct encoding_stream *str = ENCODING_STREAM_DATA (lstr);
3027 reset_encoding_stream (str);
3031 make_encoding_stream_1 (Lstream *stream, Lisp_Object codesys,
3034 Lstream *lstr = Lstream_new (lstream_encoding, mode);
3035 struct encoding_stream *str = ENCODING_STREAM_DATA (lstr);
3039 str->runoff = Dynarr_new (unsigned_char);
3040 str->other_end = stream;
3041 set_encoding_stream_coding_system (lstr, codesys);
3042 XSETLSTREAM (obj, lstr);
3047 make_encoding_input_stream (Lstream *stream, Lisp_Object codesys)
3049 return make_encoding_stream_1 (stream, codesys, "r");
3053 make_encoding_output_stream (Lstream *stream, Lisp_Object codesys)
3055 return make_encoding_stream_1 (stream, codesys, "w");
3058 /* Convert N bytes of internally-formatted data stored in SRC to an
3059 external format, according to the encoding stream ENCODING.
3060 Store the encoded data into DST. */
3063 mule_encode (Lstream *encoding, const Bufbyte *src,
3064 unsigned_char_dynarr *dst, Lstream_data_count n)
3066 struct encoding_stream *str = ENCODING_STREAM_DATA (encoding);
3068 switch (CODING_SYSTEM_TYPE (str->codesys))
3071 case CODESYS_INTERNAL:
3072 Dynarr_add_many (dst, src, n);
3075 case CODESYS_AUTODETECT:
3076 /* If we got this far and still haven't decided on the coding
3077 system, then do no conversion. */
3078 case CODESYS_NO_CONVERSION:
3079 encode_coding_no_conversion (encoding, src, dst, n);
3083 str->ccl.last_block = str->flags & CODING_STATE_END;
3084 /* When applying ccl program to stream, MUST NOT set NULL
3086 ccl_driver (&str->ccl, ((src) ? src : (unsigned char*)""),
3087 dst, n, 0, CCL_MODE_ENCODING);
3091 text_encode_generic (encoding, src, dst, n);
3095 DEFUN ("encode-coding-region", Fencode_coding_region, 3, 4, 0, /*
3096 Encode the text between START and END using CODING-SYSTEM.
3097 This will, for example, convert Japanese characters into stuff such as
3098 "^[$B!<!+^[(B" if you use the JIS encoding. Return length of encoded
3099 text. BUFFER defaults to the current buffer if unspecified.
3101 (start, end, coding_system, buffer))
3104 struct buffer *buf = decode_buffer (buffer, 0);
3105 Lisp_Object instream, lb_outstream, de_outstream, outstream;
3106 Lstream *istr, *ostr;
3107 struct gcpro gcpro1, gcpro2, gcpro3, gcpro4;
3109 get_buffer_range_char (buf, start, end, &b, &e, 0);
3111 barf_if_buffer_read_only (buf, b, e);
3113 coding_system = Fget_coding_system (coding_system);
3114 instream = make_lisp_buffer_input_stream (buf, b, e, 0);
3115 lb_outstream = make_lisp_buffer_output_stream (buf, b, 0);
3116 de_outstream = make_decoding_output_stream (XLSTREAM (lb_outstream),
3117 Fget_coding_system (Qbinary));
3118 outstream = make_encoding_output_stream (XLSTREAM (de_outstream),
3120 istr = XLSTREAM (instream);
3121 ostr = XLSTREAM (outstream);
3122 GCPRO4 (instream, outstream, de_outstream, lb_outstream);
3123 /* The chain of streams looks like this:
3125 [BUFFER] <----- send through
3126 ------> [ENCODE AS SPECIFIED]
3127 ------> [DECODE AS BINARY]
3132 char tempbuf[1024]; /* some random amount */
3133 Bufpos newpos, even_newer_pos;
3134 Bufpos oldpos = lisp_buffer_stream_startpos (istr);
3135 Lstream_data_count size_in_bytes = Lstream_read (istr, tempbuf, sizeof (tempbuf));
3139 newpos = lisp_buffer_stream_startpos (istr);
3140 Lstream_write (ostr, tempbuf, size_in_bytes);
3141 even_newer_pos = lisp_buffer_stream_startpos (istr);
3142 buffer_delete_range (buf, even_newer_pos - (newpos - oldpos),
3148 lisp_buffer_stream_startpos (XLSTREAM (instream)) - b;
3149 Lstream_close (istr);
3150 Lstream_close (ostr);
3152 Lstream_delete (istr);
3153 Lstream_delete (ostr);
3154 Lstream_delete (XLSTREAM (de_outstream));
3155 Lstream_delete (XLSTREAM (lb_outstream));
3156 return make_int (retlen);
3163 text_encode_generic (Lstream *encoding, const Bufbyte *src,
3164 unsigned_char_dynarr *dst, Lstream_data_count n)
3167 unsigned char char_boundary;
3168 struct encoding_stream *str = ENCODING_STREAM_DATA (encoding);
3169 unsigned int flags = str->flags;
3170 Emchar ch = str->ch;
3172 char_boundary = str->iso2022.current_char_boundary;
3178 if (char_boundary == 0)
3206 (*str->encode_char) (str, c, dst, &flags);
3208 else if (char_boundary == 1)
3210 (*str->encode_char) (str, (ch << 6) | (c & 0x3f), dst, &flags);
3216 ch = (ch << 6) | (c & 0x3f);
3221 if ((char_boundary == 0) && (flags & CODING_STATE_END))
3223 (*str->finish) (str, dst, &flags);
3228 str->iso2022.current_char_boundary = char_boundary;
3233 /************************************************************************/
3234 /* entity reference */
3235 /************************************************************************/
3238 decode_flush_er_chars (struct decoding_stream *str, unsigned_char_dynarr* dst);
3240 decode_flush_er_chars (struct decoding_stream *str, unsigned_char_dynarr* dst)
3242 if ( str->er_counter > 0)
3244 Dynarr_add_many (dst, str->er_buf, str->er_counter);
3245 str->er_counter = 0;
3249 void decode_add_er_char (struct decoding_stream *str, Emchar character,
3250 unsigned_char_dynarr* dst);
3252 decode_add_er_char (struct decoding_stream *str, Emchar c,
3253 unsigned_char_dynarr* dst)
3255 if (str->er_counter == 0)
3257 if (CODING_SYSTEM_USE_ENTITY_REFERENCE (str->codesys)
3260 str->er_buf[0] = '&';
3264 DECODE_ADD_UCS_CHAR (c, dst);
3268 Lisp_Object string = make_string (str->er_buf,
3270 Lisp_Object rest = Vcoded_charset_entity_reference_alist;
3275 Lisp_Object char_type;
3278 while (!NILP (rest))
3284 char_type = XCDR (ccs);
3289 if (NILP (ccs = Ffind_charset (ccs)))
3304 pat = concat3 (build_string ("^&"),
3305 pat, build_string ("\\([0-9]+\\)$"));
3308 else if (EQ (ret, Qx))
3310 pat = concat3 (build_string ("^&"),
3311 pat, build_string ("\\([0-9a-f]+\\)$"));
3314 else if (EQ (ret, QX))
3316 pat = concat3 (build_string ("^&"),
3317 pat, build_string ("\\([0-9A-F]+\\)$"));
3323 if (!NILP (Fstring_match (pat, string, Qnil, Qnil)))
3326 = XINT (Fstring_to_number
3327 (Fsubstring (string,
3328 Fmatch_beginning (make_int (1)),
3329 Fmatch_end (make_int (1))),
3333 ? DECODE_CHAR (ccs, code, 0)
3334 : decode_builtin_char (ccs, code);
3336 DECODE_ADD_UCS_CHAR (chr, dst);
3341 if (!NILP (Fstring_match (build_string ("^&MCS-\\([0-9A-F]+\\)$"),
3342 string, Qnil, Qnil)))
3345 = XUINT (Fstring_to_number
3346 (Fsubstring (string,
3347 Fmatch_beginning (make_int (1)),
3348 Fmatch_end (make_int (1))),
3351 DECODE_ADD_UCS_CHAR (code, dst);
3355 Dynarr_add_many (dst, str->er_buf, str->er_counter);
3356 Dynarr_add (dst, ';');
3359 str->er_counter = 0;
3361 else if ( (str->er_counter >= ER_BUF_SIZE) || (c >= 0x7F) )
3363 Dynarr_add_many (dst, str->er_buf, str->er_counter);
3364 str->er_counter = 0;
3365 DECODE_ADD_UCS_CHAR (c, dst);
3368 str->er_buf[str->er_counter++] = c;
3371 void char_encode_as_entity_reference (Emchar ch, char* buf);
3373 char_encode_as_entity_reference (Emchar ch, char* buf)
3375 Lisp_Object rest = Vcoded_charset_entity_reference_alist;
3378 Lisp_Object char_type;
3379 int format_columns, idx;
3380 char format[ER_BUF_SIZE];
3382 while (!NILP (rest))
3388 char_type = XCDR (ccs);
3393 if (!NILP (ccs = Ffind_charset (ccs)))
3395 int code_point = charset_code_point (ccs, ch, 0);
3397 if ( (code_point >= 0)
3398 && (NILP (char_type)
3399 || DECODE_CHAR (ccs, code_point, 0) != ch) )
3405 if ( STRINGP (ret) &&
3406 ( (idx = XSTRING_LENGTH (ret)) <= (ER_BUF_SIZE - 4) ) )
3409 strncpy (&format[1], XSTRING_DATA (ret), idx);
3419 format[idx++] = '%';
3420 format_columns = XINT (ret);
3421 if ( (2 <= format_columns) && (format_columns <= 8)
3422 && (idx + format_columns <= ER_BUF_SIZE - 1) )
3424 format [idx++] = '0';
3425 format [idx++] = '0' + format_columns;
3434 format [idx++] = 'd';
3435 else if (EQ (ret, Qx))
3436 format [idx++] = 'x';
3437 else if (EQ (ret, QX))
3438 format [idx++] = 'X';
3441 format [idx++] = ';';
3444 sprintf (buf, format, code_point);
3451 sprintf (buf, "&MCS-%08X;", ch);
3455 /************************************************************************/
3456 /* character composition */
3457 /************************************************************************/
3458 extern Lisp_Object Qcomposition;
3461 COMPOSE_FLUSH_CHARS (struct decoding_stream *str, unsigned_char_dynarr* dst);
3463 COMPOSE_FLUSH_CHARS (struct decoding_stream *str, unsigned_char_dynarr* dst)
3467 for (i = 0; i < str->combined_char_count; i++)
3468 decode_add_er_char (str, str->combined_chars[i], dst);
3469 str->combined_char_count = 0;
3470 str->combining_table = Qnil;
3473 void COMPOSE_ADD_CHAR (struct decoding_stream *str, Emchar character,
3474 unsigned_char_dynarr* dst);
3476 COMPOSE_ADD_CHAR (struct decoding_stream *str,
3477 Emchar character, unsigned_char_dynarr* dst)
3479 if (CODING_SYSTEM_DISABLE_COMPOSITION (str->codesys))
3480 decode_add_er_char (str, character, dst);
3481 else if (!CONSP (str->combining_table))
3484 = Fchar_feature (make_char (character), Qcomposition, Qnil,
3488 decode_add_er_char (str, character, dst);
3491 str->combined_chars[0] = character;
3492 str->combined_char_count = 1;
3493 str->combining_table = ret;
3499 = Fcdr (Fassq (make_char (character), str->combining_table));
3503 Emchar char2 = XCHARVAL (ret);
3504 Lisp_Object ret2 = Fchar_feature (ret, Qcomposition, Qnil,
3509 decode_add_er_char (str, char2, dst);
3510 str->combined_char_count = 0;
3511 str->combining_table = Qnil;
3515 str->combined_chars[0] = char2;
3516 str->combined_char_count = 1;
3517 str->combining_table = ret2;
3522 ret = Fchar_feature (make_char (character), Qcomposition, Qnil,
3525 COMPOSE_FLUSH_CHARS (str, dst);
3527 decode_add_er_char (str, character, dst);
3530 str->combined_chars[0] = character;
3531 str->combined_char_count = 1;
3532 str->combining_table = ret;
3537 #else /* not UTF2000 */
3538 #define COMPOSE_FLUSH_CHARS(str, dst)
3539 #define COMPOSE_ADD_CHAR(str, ch, dst) DECODE_ADD_UCS_CHAR (ch, dst)
3540 #endif /* UTF2000 */
3543 /************************************************************************/
3544 /* Shift-JIS methods */
3545 /************************************************************************/
3547 /* Shift-JIS is a coding system encoding three character sets: ASCII, right
3548 half of JISX0201-Kana, and JISX0208. An ASCII character is encoded
3549 as is. A character of JISX0201-Kana (DIMENSION1_CHARS94 character set) is
3550 encoded by "position-code + 0x80". A character of JISX0208
3551 (DIMENSION2_CHARS94 character set) is encoded in 2-byte but two
3552 position-codes are divided and shifted so that it fit in the range
3555 --- CODE RANGE of Shift-JIS ---
3556 (character set) (range)
3558 JISX0201-Kana 0xA0 .. 0xDF
3559 JISX0208 (1st byte) 0x80 .. 0x9F and 0xE0 .. 0xEF
3560 (2nd byte) 0x40 .. 0x7E and 0x80 .. 0xFC
3561 -------------------------------
3565 /* Is this the first byte of a Shift-JIS two-byte char? */
3567 #define BYTE_SJIS_TWO_BYTE_1_P(c) \
3568 (((c) >= 0x81 && (c) <= 0x9F) || ((c) >= 0xE0 && (c) <= 0xEF))
3570 /* Is this the second byte of a Shift-JIS two-byte char? */
3572 #define BYTE_SJIS_TWO_BYTE_2_P(c) \
3573 (((c) >= 0x40 && (c) <= 0x7E) || ((c) >= 0x80 && (c) <= 0xFC))
3575 #define BYTE_SJIS_KATAKANA_P(c) \
3576 ((c) >= 0xA1 && (c) <= 0xDF)
3579 detect_coding_sjis (struct detection_state *st, const Extbyte *src, Lstream_data_count n)
3583 unsigned char c = *(unsigned char *)src++;
3584 if (c == ISO_CODE_ESC || c == ISO_CODE_SI || c == ISO_CODE_SO)
3586 if (st->shift_jis.in_second_byte)
3588 st->shift_jis.in_second_byte = 0;
3592 else if ((c >= 0x80 && c < 0xA0) || c >= 0xE0)
3593 st->shift_jis.in_second_byte = 1;
3595 return CODING_CATEGORY_SHIFT_JIS_MASK;
3598 /* Convert Shift-JIS data to internal format. */
3601 decode_coding_sjis (Lstream *decoding, const Extbyte *src,
3602 unsigned_char_dynarr *dst, Lstream_data_count n)
3604 struct decoding_stream *str = DECODING_STREAM_DATA (decoding);
3605 unsigned int flags = str->flags;
3606 unsigned int cpos = str->cpos;
3607 eol_type_t eol_type = str->eol_type;
3611 unsigned char c = *(unsigned char *)src++;
3615 /* Previous character was first byte of Shift-JIS Kanji char. */
3616 if (BYTE_SJIS_TWO_BYTE_2_P (c))
3618 unsigned char e1, e2;
3620 DECODE_SJIS (cpos, c, e1, e2);
3622 DECODE_ADD_UCS_CHAR(MAKE_CHAR(Vcharset_japanese_jisx0208,
3626 Dynarr_add (dst, LEADING_BYTE_JAPANESE_JISX0208);
3627 Dynarr_add (dst, e1);
3628 Dynarr_add (dst, e2);
3633 DECODE_ADD_BINARY_CHAR (cpos, dst);
3634 DECODE_ADD_BINARY_CHAR (c, dst);
3640 DECODE_HANDLE_EOL_TYPE (eol_type, c, flags, dst);
3641 if (BYTE_SJIS_TWO_BYTE_1_P (c))
3643 else if (BYTE_SJIS_KATAKANA_P (c))
3646 DECODE_ADD_UCS_CHAR(MAKE_CHAR(Vcharset_katakana_jisx0201,
3649 Dynarr_add (dst, LEADING_BYTE_KATAKANA_JISX0201);
3650 Dynarr_add (dst, c);
3655 DECODE_ADD_UCS_CHAR(MAKE_CHAR(Vcharset_latin_jisx0201,
3659 DECODE_ADD_BINARY_CHAR (c, dst);
3661 label_continue_loop:;
3664 DECODE_HANDLE_END_OF_CONVERSION (flags, cpos, dst);
3670 /* Convert internal character representation to Shift_JIS. */
3673 char_encode_shift_jis (struct encoding_stream *str, Emchar ch,
3674 unsigned_char_dynarr *dst, unsigned int *flags)
3676 eol_type_t eol_type = CODING_SYSTEM_EOL_TYPE (str->codesys);
3680 if (eol_type != EOL_LF && eol_type != EOL_AUTODETECT)
3681 Dynarr_add (dst, '\r');
3682 if (eol_type != EOL_CR)
3683 Dynarr_add (dst, ch);
3687 unsigned int s1, s2;
3689 int code_point = charset_code_point (Vcharset_latin_jisx0201, ch, 0);
3691 if (code_point >= 0)
3692 Dynarr_add (dst, code_point);
3693 else if ((code_point
3694 = charset_code_point (Vcharset_japanese_jisx0208_1990, ch, 0))
3697 ENCODE_SJIS ((code_point >> 8) | 0x80,
3698 (code_point & 0xFF) | 0x80, s1, s2);
3699 Dynarr_add (dst, s1);
3700 Dynarr_add (dst, s2);
3702 else if ((code_point
3703 = charset_code_point (Vcharset_katakana_jisx0201, ch, 0))
3705 Dynarr_add (dst, code_point | 0x80);
3706 else if ((code_point
3707 = charset_code_point (Vcharset_japanese_jisx0208, ch, 0))
3710 ENCODE_SJIS ((code_point >> 8) | 0x80,
3711 (code_point & 0xFF) | 0x80, s1, s2);
3712 Dynarr_add (dst, s1);
3713 Dynarr_add (dst, s2);
3715 else if ((code_point = charset_code_point (Vcharset_ascii, ch, 0))
3717 Dynarr_add (dst, code_point);
3719 Dynarr_add (dst, '?');
3721 Lisp_Object charset;
3722 unsigned int c1, c2;
3724 BREAKUP_CHAR (ch, charset, c1, c2);
3726 if (EQ(charset, Vcharset_katakana_jisx0201))
3728 Dynarr_add (dst, c1 | 0x80);
3732 Dynarr_add (dst, c1);
3734 else if (EQ(charset, Vcharset_japanese_jisx0208))
3736 ENCODE_SJIS (c1 | 0x80, c2 | 0x80, s1, s2);
3737 Dynarr_add (dst, s1);
3738 Dynarr_add (dst, s2);
3741 Dynarr_add (dst, '?');
3747 char_finish_shift_jis (struct encoding_stream *str, unsigned_char_dynarr *dst,
3748 unsigned int *flags)
3752 DEFUN ("decode-shift-jis-char", Fdecode_shift_jis_char, 1, 1, 0, /*
3753 Decode a JISX0208 character of Shift-JIS coding-system.
3754 CODE is the character code in Shift-JIS as a cons of type bytes.
3755 Return the corresponding character.
3759 unsigned char c1, c2, s1, s2;
3762 CHECK_INT (XCAR (code));
3763 CHECK_INT (XCDR (code));
3764 s1 = XINT (XCAR (code));
3765 s2 = XINT (XCDR (code));
3766 if (BYTE_SJIS_TWO_BYTE_1_P (s1) &&
3767 BYTE_SJIS_TWO_BYTE_2_P (s2))
3769 DECODE_SJIS (s1, s2, c1, c2);
3770 return make_char (MAKE_CHAR (Vcharset_japanese_jisx0208,
3771 c1 & 0x7F, c2 & 0x7F));
3777 DEFUN ("encode-shift-jis-char", Fencode_shift_jis_char, 1, 1, 0, /*
3778 Encode a JISX0208 character CHARACTER to SHIFT-JIS coding-system.
3779 Return the corresponding character code in SHIFT-JIS as a cons of two bytes.
3783 Lisp_Object charset;
3786 CHECK_CHAR_COERCE_INT (character);
3787 BREAKUP_CHAR (XCHAR (character), charset, c1, c2);
3788 if (EQ (charset, Vcharset_japanese_jisx0208))
3790 ENCODE_SJIS (c1 | 0x80, c2 | 0x80, s1, s2);
3791 return Fcons (make_int (s1), make_int (s2));
3798 /************************************************************************/
3800 /************************************************************************/
3802 /* BIG5 is a coding system encoding two character sets: ASCII and
3803 Big5. An ASCII character is encoded as is. Big5 is a two-byte
3804 character set and is encoded in two-byte.
3806 --- CODE RANGE of BIG5 ---
3807 (character set) (range)
3809 Big5 (1st byte) 0xA1 .. 0xFE
3810 (2nd byte) 0x40 .. 0x7E and 0xA1 .. 0xFE
3811 --------------------------
3813 Since the number of characters in Big5 is larger than maximum
3814 characters in Emacs' charset (96x96), it can't be handled as one
3815 charset. So, in Emacs, Big5 is divided into two: `charset-big5-1'
3816 and `charset-big5-2'. Both <type>s are DIMENSION2_CHARS94. The former
3817 contains frequently used characters and the latter contains less
3818 frequently used characters. */
3821 #define BYTE_BIG5_TWO_BYTE_1_P(c) \
3822 ((c) >= 0x81 && (c) <= 0xFE)
3824 #define BYTE_BIG5_TWO_BYTE_1_P(c) \
3825 ((c) >= 0xA1 && (c) <= 0xFE)
3828 /* Is this the second byte of a Shift-JIS two-byte char? */
3830 #define BYTE_BIG5_TWO_BYTE_2_P(c) \
3831 (((c) >= 0x40 && (c) <= 0x7E) || ((c) >= 0xA1 && (c) <= 0xFE))
3833 /* Number of Big5 characters which have the same code in 1st byte. */
3835 #define BIG5_SAME_ROW (0xFF - 0xA1 + 0x7F - 0x40)
3837 /* Code conversion macros. These are macros because they are used in
3838 inner loops during code conversion.
3840 Note that temporary variables in macros introduce the classic
3841 dynamic-scoping problems with variable names. We use capital-
3842 lettered variables in the assumption that XEmacs does not use
3843 capital letters in variables except in a very formalized way
3846 /* Convert Big5 code (b1, b2) into its internal string representation
3849 /* There is a much simpler way to split the Big5 charset into two.
3850 For the moment I'm going to leave the algorithm as-is because it
3851 claims to separate out the most-used characters into a single
3852 charset, which perhaps will lead to optimizations in various
3855 The way the algorithm works is something like this:
3857 Big5 can be viewed as a 94x157 charset, where the row is
3858 encoded into the bytes 0xA1 .. 0xFE and the column is encoded
3859 into the bytes 0x40 .. 0x7E and 0xA1 .. 0xFE. As for frequency,
3860 the split between low and high column numbers is apparently
3861 meaningless; ascending rows produce less and less frequent chars.
3862 Therefore, we assign the lower half of rows (0xA1 .. 0xC8) to
3863 the first charset, and the upper half (0xC9 .. 0xFE) to the
3864 second. To do the conversion, we convert the character into
3865 a single number where 0 .. 156 is the first row, 157 .. 313
3866 is the second, etc. That way, the characters are ordered by
3867 decreasing frequency. Then we just chop the space in two
3868 and coerce the result into a 94x94 space.
3871 #define DECODE_BIG5(b1, b2, lb, c1, c2) do \
3873 int B1 = b1, B2 = b2; \
3875 = (B1 - 0xA1) * BIG5_SAME_ROW + B2 - (B2 < 0x7F ? 0x40 : 0x62); \
3879 lb = LEADING_BYTE_CHINESE_BIG5_1; \
3883 lb = LEADING_BYTE_CHINESE_BIG5_2; \
3884 I -= (BIG5_SAME_ROW) * (0xC9 - 0xA1); \
3886 c1 = I / (0xFF - 0xA1) + 0xA1; \
3887 c2 = I % (0xFF - 0xA1) + 0xA1; \
3890 /* Convert the internal string representation of a Big5 character
3891 (lb, c1, c2) into Big5 code (b1, b2). */
3893 #define ENCODE_BIG5(lb, c1, c2, b1, b2) do \
3895 unsigned int I = ((c1) - 0xA1) * (0xFF - 0xA1) + ((c2) - 0xA1); \
3897 if (lb == LEADING_BYTE_CHINESE_BIG5_2) \
3899 I += BIG5_SAME_ROW * (0xC9 - 0xA1); \
3901 b1 = I / BIG5_SAME_ROW + 0xA1; \
3902 b2 = I % BIG5_SAME_ROW; \
3903 b2 += b2 < 0x3F ? 0x40 : 0x62; \
3907 detect_coding_big5 (struct detection_state *st, const Extbyte *src, Lstream_data_count n)
3911 unsigned char c = *(unsigned char *)src++;
3912 if (c == ISO_CODE_ESC || c == ISO_CODE_SI || c == ISO_CODE_SO
3914 || (c >= 0x80 && c <= 0xA0)
3918 if (st->big5.in_second_byte)
3920 st->big5.in_second_byte = 0;
3921 if (c < 0x40 || (c >= 0x80 && c <= 0xA0))
3931 st->big5.in_second_byte = 1;
3933 return CODING_CATEGORY_BIG5_MASK;
3936 /* Convert Big5 data to internal format. */
3939 decode_coding_big5 (Lstream *decoding, const Extbyte *src,
3940 unsigned_char_dynarr *dst, Lstream_data_count n)
3942 struct decoding_stream *str = DECODING_STREAM_DATA (decoding);
3943 unsigned int flags = str->flags;
3944 unsigned int cpos = str->cpos;
3945 eol_type_t eol_type = str->eol_type;
3948 = CODING_SYSTEM_ISO2022_INITIAL_CHARSET (DECODING_STREAM_DATA
3949 (decoding)->codesys, 1);
3954 unsigned char c = *(unsigned char *)src++;
3957 /* Previous character was first byte of Big5 char. */
3958 if (BYTE_BIG5_TWO_BYTE_2_P (c))
3961 int code_point = (cpos << 8) | c;
3962 Emchar char_id = decode_defined_char (ccs, code_point, 0);
3966 = DECODE_CHAR (Vcharset_chinese_big5, code_point, 0);
3967 DECODE_ADD_UCS_CHAR (char_id, dst);
3969 unsigned char b1, b2, b3;
3970 DECODE_BIG5 (cpos, c, b1, b2, b3);
3971 Dynarr_add (dst, b1);
3972 Dynarr_add (dst, b2);
3973 Dynarr_add (dst, b3);
3978 DECODE_ADD_BINARY_CHAR (cpos, dst);
3979 DECODE_ADD_BINARY_CHAR (c, dst);
3985 DECODE_HANDLE_EOL_TYPE (eol_type, c, flags, dst);
3986 if (BYTE_BIG5_TWO_BYTE_1_P (c))
3988 decode_flush_er_chars (str, dst);
3993 decode_flush_er_chars (str, dst);
3994 DECODE_HANDLE_EOL_TYPE (eol_type, c, flags, dst);
3995 DECODE_ADD_BINARY_CHAR (c, dst);
3999 /* DECODE_ADD_BINARY_CHAR (c, dst); */
4000 decode_add_er_char (str, c, dst);
4003 label_continue_loop:;
4006 /* DECODE_HANDLE_END_OF_CONVERSION (flags, cpos, dst); */
4007 if (flags & CODING_STATE_END)
4009 decode_flush_er_chars (str, dst);
4010 DECODE_OUTPUT_PARTIAL_CHAR (cpos);
4011 if (flags & CODING_STATE_CR)
4012 Dynarr_add (dst, '\r');
4019 /* Convert internally-formatted data to Big5. */
4022 char_encode_big5 (struct encoding_stream *str, Emchar ch,
4023 unsigned_char_dynarr *dst, unsigned int *flags)
4025 eol_type_t eol_type = CODING_SYSTEM_EOL_TYPE (str->codesys);
4029 if (eol_type != EOL_LF && eol_type != EOL_AUTODETECT)
4030 Dynarr_add (dst, '\r');
4031 if (eol_type != EOL_CR)
4032 Dynarr_add (dst, ch);
4039 = CODING_SYSTEM_ISO2022_INITIAL_CHARSET (str->codesys, 1);
4041 if ((code_point = charset_code_point (Vcharset_ascii, ch, 0)) >= 0)
4042 Dynarr_add (dst, code_point);
4043 else if ((code_point = charset_code_point (ccs, ch, 0)) >= 0)
4045 Dynarr_add (dst, code_point >> 8);
4046 Dynarr_add (dst, code_point & 0xFF);
4048 else if ((code_point
4049 = charset_code_point (Vcharset_chinese_big5, ch, 0)) >= 0)
4051 Dynarr_add (dst, code_point >> 8);
4052 Dynarr_add (dst, code_point & 0xFF);
4054 else if ((code_point
4055 = charset_code_point (Vcharset_chinese_big5_1, ch, 0)) >= 0)
4058 = ((code_point >> 8) - 33) * (0xFF - 0xA1)
4059 + ((code_point & 0xFF) - 33);
4060 unsigned char b1 = I / BIG5_SAME_ROW + 0xA1;
4061 unsigned char b2 = I % BIG5_SAME_ROW;
4063 b2 += b2 < 0x3F ? 0x40 : 0x62;
4064 Dynarr_add (dst, b1);
4065 Dynarr_add (dst, b2);
4067 else if ((code_point
4068 = charset_code_point (Vcharset_chinese_big5_2, ch, 0)) >= 0)
4071 = ((code_point >> 8) - 33) * (0xFF - 0xA1)
4072 + ((code_point & 0xFF) - 33);
4073 unsigned char b1, b2;
4075 I += BIG5_SAME_ROW * (0xC9 - 0xA1);
4076 b1 = I / BIG5_SAME_ROW + 0xA1;
4077 b2 = I % BIG5_SAME_ROW;
4078 b2 += b2 < 0x3F ? 0x40 : 0x62;
4079 Dynarr_add (dst, b1);
4080 Dynarr_add (dst, b2);
4082 else if (CODING_SYSTEM_USE_ENTITY_REFERENCE (str->codesys))
4086 char_encode_as_entity_reference (ch, buf);
4087 Dynarr_add_many (dst, buf, strlen (buf));
4090 Dynarr_add (dst, '?');
4097 char_finish_big5 (struct encoding_stream *str, unsigned_char_dynarr *dst,
4098 unsigned int *flags)
4103 DEFUN ("decode-big5-char", Fdecode_big5_char, 1, 1, 0, /*
4104 Decode a Big5 character CODE of BIG5 coding-system.
4105 CODE is the character code in BIG5, a cons of two integers.
4106 Return the corresponding character.
4110 unsigned char c1, c2, b1, b2;
4113 CHECK_INT (XCAR (code));
4114 CHECK_INT (XCDR (code));
4115 b1 = XINT (XCAR (code));
4116 b2 = XINT (XCDR (code));
4117 if (BYTE_BIG5_TWO_BYTE_1_P (b1) &&
4118 BYTE_BIG5_TWO_BYTE_2_P (b2))
4120 Charset_ID leading_byte;
4121 Lisp_Object charset;
4122 DECODE_BIG5 (b1, b2, leading_byte, c1, c2);
4123 charset = CHARSET_BY_LEADING_BYTE (leading_byte);
4124 return make_char (MAKE_CHAR (charset, c1 & 0x7F, c2 & 0x7F));
4130 DEFUN ("encode-big5-char", Fencode_big5_char, 1, 1, 0, /*
4131 Encode the Big5 character CHARACTER in the BIG5 coding-system.
4132 Return the corresponding character code in Big5.
4136 Lisp_Object charset;
4139 CHECK_CHAR_COERCE_INT (character);
4140 BREAKUP_CHAR (XCHAR (character), charset, c1, c2);
4141 if (EQ (charset, Vcharset_chinese_big5_1) ||
4142 EQ (charset, Vcharset_chinese_big5_2))
4144 ENCODE_BIG5 (XCHARSET_LEADING_BYTE (charset), c1 | 0x80, c2 | 0x80,
4146 return Fcons (make_int (b1), make_int (b2));
4153 /************************************************************************/
4155 /************************************************************************/
4158 detect_coding_ucs4 (struct detection_state *st, const Extbyte *src, Lstream_data_count n)
4162 unsigned char c = *(unsigned char *)src++;
4163 switch (st->ucs4.in_byte)
4172 st->ucs4.in_byte = 0;
4178 return CODING_CATEGORY_UCS4_MASK;
4182 decode_coding_ucs4 (Lstream *decoding, const Extbyte *src,
4183 unsigned_char_dynarr *dst, Lstream_data_count n)
4185 struct decoding_stream *str = DECODING_STREAM_DATA (decoding);
4186 unsigned int flags = str->flags;
4187 unsigned int cpos = str->cpos;
4188 unsigned char counter = str->counter;
4192 unsigned char c = *(unsigned char *)src++;
4200 DECODE_ADD_UCS_CHAR ((cpos << 8) | c, dst);
4205 cpos = ( cpos << 8 ) | c;
4209 if (counter & CODING_STATE_END)
4210 DECODE_OUTPUT_PARTIAL_CHAR (cpos);
4214 str->counter = counter;
4218 char_encode_ucs4 (struct encoding_stream *str, Emchar ch,
4219 unsigned_char_dynarr *dst, unsigned int *flags)
4221 Dynarr_add (dst, ch >> 24);
4222 Dynarr_add (dst, ch >> 16);
4223 Dynarr_add (dst, ch >> 8);
4224 Dynarr_add (dst, ch );
4228 char_finish_ucs4 (struct encoding_stream *str, unsigned_char_dynarr *dst,
4229 unsigned int *flags)
4234 /************************************************************************/
4235 /* UTF-16 methods */
4236 /************************************************************************/
4239 detect_coding_utf16 (struct detection_state *st, const Extbyte *src, Lstream_data_count n)
4241 return CODING_CATEGORY_UTF16_MASK;
4245 decode_coding_utf16 (Lstream *decoding, const Extbyte *src,
4246 unsigned_char_dynarr *dst, Lstream_data_count n)
4248 struct decoding_stream *str = DECODING_STREAM_DATA (decoding);
4249 unsigned int flags = str->flags;
4250 unsigned int cpos = str->cpos;
4251 unsigned char counter = str->counter & 3;
4252 unsigned char byte_order = str->counter >> 2;
4253 eol_type_t eol_type = str->eol_type;
4257 unsigned char c = *(unsigned char *)src++;
4263 else if (counter == 1)
4267 if (byte_order == 0)
4268 code = (c << 8) | cpos;
4270 code = (cpos << 8) | c;
4273 code = ((code & 0xFF) << 8) | (code >> 8);
4274 if ( byte_order == 0 )
4279 if ( (0xD800 <= code) && (code <= 0xDBFF) )
4290 DECODE_HANDLE_EOL_TYPE (eol_type, code, flags, dst);
4291 DECODE_ADD_UCS_CHAR (code, dst);
4295 else if (counter == 2)
4297 cpos = (cpos << 8) | c;
4305 ? (c << 8) | (cpos & 0xFF)
4306 : ((cpos & 0xFF) << 8) | c;
4308 DECODE_ADD_UCS_CHAR ((x - 0xD800) * 0x400 + (y - 0xDC00)
4313 label_continue_loop:;
4315 if (counter & CODING_STATE_END)
4316 DECODE_OUTPUT_PARTIAL_CHAR (cpos);
4320 str->counter = (byte_order << 2) | counter;
4324 char_encode_utf16 (struct encoding_stream *str, Emchar ch,
4325 unsigned_char_dynarr *dst, unsigned int *flags)
4329 Dynarr_add (dst, ch);
4330 Dynarr_add (dst, ch >> 8);
4334 int y = ((ch - 0x10000) / 0x400) + 0xD800;
4335 int z = ((ch - 0x10000) % 0x400) + 0xDC00;
4337 Dynarr_add (dst, y);
4338 Dynarr_add (dst, y >> 8);
4339 Dynarr_add (dst, z);
4340 Dynarr_add (dst, z >> 8);
4345 char_finish_utf16 (struct encoding_stream *str, unsigned_char_dynarr *dst,
4346 unsigned int *flags)
4351 /************************************************************************/
4353 /************************************************************************/
4356 detect_coding_utf8 (struct detection_state *st, const Extbyte *src, Lstream_data_count n)
4360 unsigned char c = *(unsigned char *)src++;
4361 switch (st->utf8.in_byte)
4364 if (c == ISO_CODE_ESC || c == ISO_CODE_SI || c == ISO_CODE_SO)
4367 st->utf8.in_byte = 5;
4369 st->utf8.in_byte = 4;
4371 st->utf8.in_byte = 3;
4373 st->utf8.in_byte = 2;
4375 st->utf8.in_byte = 1;
4380 if ((c & 0xc0) != 0x80)
4386 return CODING_CATEGORY_UTF8_MASK;
4390 decode_output_utf8_partial_char (unsigned char counter,
4392 unsigned_char_dynarr *dst)
4395 DECODE_ADD_BINARY_CHAR ( (cpos|0xFC), dst);
4396 else if (counter == 4)
4398 if (cpos < (1 << 6))
4399 DECODE_ADD_BINARY_CHAR ( (cpos|0xF8), dst);
4402 DECODE_ADD_BINARY_CHAR ( ((cpos >> 6)|0xFC), dst);
4403 DECODE_ADD_BINARY_CHAR ( ((cpos&0x3F)|0x80), dst);
4406 else if (counter == 3)
4408 if (cpos < (1 << 6))
4409 DECODE_ADD_BINARY_CHAR ( (cpos|0xF0), dst);
4410 else if (cpos < (1 << 12))
4412 DECODE_ADD_BINARY_CHAR ( ((cpos >> 6)|0xF8), dst);
4413 DECODE_ADD_BINARY_CHAR ( ((cpos&0x3F)|0x80), dst);
4417 DECODE_ADD_BINARY_CHAR ( ( (cpos >> 12)|0xFC), dst);
4418 DECODE_ADD_BINARY_CHAR ( (((cpos >> 6)&0x3F)|0x80), dst);
4419 DECODE_ADD_BINARY_CHAR ( ( (cpos &0x3F)|0x80), dst);
4422 else if (counter == 2)
4424 if (cpos < (1 << 6))
4425 DECODE_ADD_BINARY_CHAR ( (cpos|0xE0), dst);
4426 else if (cpos < (1 << 12))
4428 DECODE_ADD_BINARY_CHAR ( ((cpos >> 6)|0xF0), dst);
4429 DECODE_ADD_BINARY_CHAR ( ((cpos&0x3F)|0x80), dst);
4431 else if (cpos < (1 << 18))
4433 DECODE_ADD_BINARY_CHAR ( ( (cpos >> 12)|0xF8), dst);
4434 DECODE_ADD_BINARY_CHAR ( (((cpos >> 6)&0x3F)|0x80), dst);
4435 DECODE_ADD_BINARY_CHAR ( ( (cpos &0x3F)|0x80), dst);
4439 DECODE_ADD_BINARY_CHAR ( ( (cpos >> 18)|0xFC), dst);
4440 DECODE_ADD_BINARY_CHAR ( (((cpos >> 12)&0x3F)|0x80), dst);
4441 DECODE_ADD_BINARY_CHAR ( (((cpos >> 6)&0x3F)|0x80), dst);
4442 DECODE_ADD_BINARY_CHAR ( ( (cpos &0x3F)|0x80), dst);
4447 if (cpos < (1 << 6))
4448 DECODE_ADD_BINARY_CHAR ( (cpos|0xC0), dst);
4449 else if (cpos < (1 << 12))
4451 DECODE_ADD_BINARY_CHAR ( ((cpos >> 6)|0xE0), dst);
4452 DECODE_ADD_BINARY_CHAR ( ((cpos&0x3F)|0x80), dst);
4454 else if (cpos < (1 << 18))
4456 DECODE_ADD_BINARY_CHAR ( ( (cpos >> 12)|0xF0), dst);
4457 DECODE_ADD_BINARY_CHAR ( (((cpos >> 6)&0x3F)|0x80), dst);
4458 DECODE_ADD_BINARY_CHAR ( ( (cpos &0x3F)|0x80), dst);
4460 else if (cpos < (1 << 24))
4462 DECODE_ADD_BINARY_CHAR ( ( (cpos >> 18)|0xF8), dst);
4463 DECODE_ADD_BINARY_CHAR ( (((cpos >> 12)&0x3F)|0x80), dst);
4464 DECODE_ADD_BINARY_CHAR ( (((cpos >> 6)&0x3F)|0x80), dst);
4465 DECODE_ADD_BINARY_CHAR ( ( (cpos &0x3F)|0x80), dst);
4469 DECODE_ADD_BINARY_CHAR ( ( (cpos >> 24)|0xFC), dst);
4470 DECODE_ADD_BINARY_CHAR ( (((cpos >> 18)&0x3F)|0x80), dst);
4471 DECODE_ADD_BINARY_CHAR ( (((cpos >> 12)&0x3F)|0x80), dst);
4472 DECODE_ADD_BINARY_CHAR ( (((cpos >> 6)&0x3F)|0x80), dst);
4473 DECODE_ADD_BINARY_CHAR ( ( (cpos &0x3F)|0x80), dst);
4479 decode_coding_utf8 (Lstream *decoding, const Extbyte *src,
4480 unsigned_char_dynarr *dst, Lstream_data_count n)
4482 struct decoding_stream *str = DECODING_STREAM_DATA (decoding);
4483 unsigned int flags = str->flags;
4484 unsigned int cpos = str->cpos;
4485 eol_type_t eol_type = str->eol_type;
4486 unsigned char counter = str->counter;
4489 = CODING_SYSTEM_ISO2022_INITIAL_CHARSET (DECODING_STREAM_DATA
4490 (decoding)->codesys, 0);
4495 unsigned char c = *(unsigned char *)src++;
4500 COMPOSE_FLUSH_CHARS (str, dst);
4501 decode_flush_er_chars (str, dst);
4502 DECODE_HANDLE_EOL_TYPE (eol_type, c, flags, dst);
4503 DECODE_ADD_UCS_CHAR (c, dst);
4505 else if ( c < 0xC0 )
4506 /* decode_add_er_char (str, c, dst); */
4507 COMPOSE_ADD_CHAR (str, c, dst);
4510 /* decode_flush_er_chars (str, dst); */
4516 else if ( c < 0xF0 )
4521 else if ( c < 0xF8 )
4526 else if ( c < 0xFC )
4538 else if ( (c & 0xC0) == 0x80 )
4540 cpos = ( cpos << 6 ) | ( c & 0x3f );
4547 char_id = decode_defined_char (ccs, cpos, 0);
4554 COMPOSE_ADD_CHAR (str, char_id, dst);
4563 COMPOSE_FLUSH_CHARS (str, dst);
4564 decode_flush_er_chars (str, dst);
4565 decode_output_utf8_partial_char (counter, cpos, dst);
4566 DECODE_ADD_BINARY_CHAR (c, dst);
4570 label_continue_loop:;
4573 if (flags & CODING_STATE_END)
4575 COMPOSE_FLUSH_CHARS (str, dst);
4576 decode_flush_er_chars (str, dst);
4579 decode_output_utf8_partial_char (counter, cpos, dst);
4586 str->counter = counter;
4590 char_encode_utf8 (struct encoding_stream *str, Emchar ch,
4591 unsigned_char_dynarr *dst, unsigned int *flags)
4593 eol_type_t eol_type = CODING_SYSTEM_EOL_TYPE (str->codesys);
4597 if (eol_type != EOL_LF && eol_type != EOL_AUTODETECT)
4598 Dynarr_add (dst, '\r');
4599 if (eol_type != EOL_CR)
4600 Dynarr_add (dst, ch);
4602 else if (ch <= 0x7f)
4604 Dynarr_add (dst, ch);
4609 = CODING_SYSTEM_ISO2022_INITIAL_CHARSET (str->codesys, 0);
4610 int code_point = charset_code_point (ucs_ccs, ch, 0);
4612 if ( (code_point < 0) || (code_point > 0xEFFFF) )
4615 = CODING_SYSTEM_ISO2022_INITIAL_CHARSET (str->codesys, 1);
4619 && INTP (ret = Fchar_feature (make_char (ch),
4622 code_point = XINT (ret);
4623 else if ( !NILP (map =
4624 CODING_SYSTEM_ISO2022_INITIAL_CHARSET
4626 && INTP (ret = Fchar_feature (make_char (ch),
4629 code_point = XINT (ret);
4630 else if (CODING_SYSTEM_USE_ENTITY_REFERENCE (str->codesys))
4634 char_encode_as_entity_reference (ch, buf);
4635 Dynarr_add_many (dst, buf, strlen (buf));
4641 if (code_point <= 0x7ff)
4643 Dynarr_add (dst, (code_point >> 6) | 0xc0);
4644 Dynarr_add (dst, (code_point & 0x3f) | 0x80);
4646 else if (code_point <= 0xffff)
4648 Dynarr_add (dst, (code_point >> 12) | 0xe0);
4649 Dynarr_add (dst, ((code_point >> 6) & 0x3f) | 0x80);
4650 Dynarr_add (dst, (code_point & 0x3f) | 0x80);
4652 else if (code_point <= 0x1fffff)
4654 Dynarr_add (dst, (code_point >> 18) | 0xf0);
4655 Dynarr_add (dst, ((code_point >> 12) & 0x3f) | 0x80);
4656 Dynarr_add (dst, ((code_point >> 6) & 0x3f) | 0x80);
4657 Dynarr_add (dst, (code_point & 0x3f) | 0x80);
4659 else if (code_point <= 0x3ffffff)
4661 Dynarr_add (dst, (code_point >> 24) | 0xf8);
4662 Dynarr_add (dst, ((code_point >> 18) & 0x3f) | 0x80);
4663 Dynarr_add (dst, ((code_point >> 12) & 0x3f) | 0x80);
4664 Dynarr_add (dst, ((code_point >> 6) & 0x3f) | 0x80);
4665 Dynarr_add (dst, (code_point & 0x3f) | 0x80);
4669 Dynarr_add (dst, (code_point >> 30) | 0xfc);
4670 Dynarr_add (dst, ((code_point >> 24) & 0x3f) | 0x80);
4671 Dynarr_add (dst, ((code_point >> 18) & 0x3f) | 0x80);
4672 Dynarr_add (dst, ((code_point >> 12) & 0x3f) | 0x80);
4673 Dynarr_add (dst, ((code_point >> 6) & 0x3f) | 0x80);
4674 Dynarr_add (dst, (code_point & 0x3f) | 0x80);
4680 char_finish_utf8 (struct encoding_stream *str, unsigned_char_dynarr *dst,
4681 unsigned int *flags)
4686 /************************************************************************/
4687 /* ISO2022 methods */
4688 /************************************************************************/
4690 /* The following note describes the coding system ISO2022 briefly.
4691 Since the intention of this note is to help understand the
4692 functions in this file, some parts are NOT ACCURATE or OVERLY
4693 SIMPLIFIED. For thorough understanding, please refer to the
4694 original document of ISO2022.
4696 ISO2022 provides many mechanisms to encode several character sets
4697 in 7-bit and 8-bit environments. For 7-bit environments, all text
4698 is encoded using bytes less than 128. This may make the encoded
4699 text a little bit longer, but the text passes more easily through
4700 several gateways, some of which strip off MSB (Most Signigant Bit).
4702 There are two kinds of character sets: control character set and
4703 graphic character set. The former contains control characters such
4704 as `newline' and `escape' to provide control functions (control
4705 functions are also provided by escape sequences). The latter
4706 contains graphic characters such as 'A' and '-'. Emacs recognizes
4707 two control character sets and many graphic character sets.
4709 Graphic character sets are classified into one of the following
4710 four classes, according to the number of bytes (DIMENSION) and
4711 number of characters in one dimension (CHARS) of the set:
4712 - DIMENSION1_CHARS94
4713 - DIMENSION1_CHARS96
4714 - DIMENSION2_CHARS94
4715 - DIMENSION2_CHARS96
4717 In addition, each character set is assigned an identification tag,
4718 unique for each set, called "final character" (denoted as <F>
4719 hereafter). The <F> of each character set is decided by ECMA(*)
4720 when it is registered in ISO. The code range of <F> is 0x30..0x7F
4721 (0x30..0x3F are for private use only).
4723 Note (*): ECMA = European Computer Manufacturers Association
4725 Here are examples of graphic character set [NAME(<F>)]:
4726 o DIMENSION1_CHARS94 -- ASCII('B'), right-half-of-JISX0201('I'), ...
4727 o DIMENSION1_CHARS96 -- right-half-of-ISO8859-1('A'), ...
4728 o DIMENSION2_CHARS94 -- GB2312('A'), JISX0208('B'), ...
4729 o DIMENSION2_CHARS96 -- none for the moment
4731 A code area (1 byte = 8 bits) is divided into 4 areas, C0, GL, C1, and GR.
4732 C0 [0x00..0x1F] -- control character plane 0
4733 GL [0x20..0x7F] -- graphic character plane 0
4734 C1 [0x80..0x9F] -- control character plane 1
4735 GR [0xA0..0xFF] -- graphic character plane 1
4737 A control character set is directly designated and invoked to C0 or
4738 C1 by an escape sequence. The most common case is that:
4739 - ISO646's control character set is designated/invoked to C0, and
4740 - ISO6429's control character set is designated/invoked to C1,
4741 and usually these designations/invocations are omitted in encoded
4742 text. In a 7-bit environment, only C0 can be used, and a control
4743 character for C1 is encoded by an appropriate escape sequence to
4744 fit into the environment. All control characters for C1 are
4745 defined to have corresponding escape sequences.
4747 A graphic character set is at first designated to one of four
4748 graphic registers (G0 through G3), then these graphic registers are
4749 invoked to GL or GR. These designations and invocations can be
4750 done independently. The most common case is that G0 is invoked to
4751 GL, G1 is invoked to GR, and ASCII is designated to G0. Usually
4752 these invocations and designations are omitted in encoded text.
4753 In a 7-bit environment, only GL can be used.
4755 When a graphic character set of CHARS94 is invoked to GL, codes
4756 0x20 and 0x7F of the GL area work as control characters SPACE and
4757 DEL respectively, and codes 0xA0 and 0xFF of the GR area should not
4760 There are two ways of invocation: locking-shift and single-shift.
4761 With locking-shift, the invocation lasts until the next different
4762 invocation, whereas with single-shift, the invocation affects the
4763 following character only and doesn't affect the locking-shift
4764 state. Invocations are done by the following control characters or
4767 ----------------------------------------------------------------------
4768 abbrev function cntrl escape seq description
4769 ----------------------------------------------------------------------
4770 SI/LS0 (shift-in) 0x0F none invoke G0 into GL
4771 SO/LS1 (shift-out) 0x0E none invoke G1 into GL
4772 LS2 (locking-shift-2) none ESC 'n' invoke G2 into GL
4773 LS3 (locking-shift-3) none ESC 'o' invoke G3 into GL
4774 LS1R (locking-shift-1 right) none ESC '~' invoke G1 into GR (*)
4775 LS2R (locking-shift-2 right) none ESC '}' invoke G2 into GR (*)
4776 LS3R (locking-shift 3 right) none ESC '|' invoke G3 into GR (*)
4777 SS2 (single-shift-2) 0x8E ESC 'N' invoke G2 for one char
4778 SS3 (single-shift-3) 0x8F ESC 'O' invoke G3 for one char
4779 ----------------------------------------------------------------------
4780 (*) These are not used by any known coding system.
4782 Control characters for these functions are defined by macros
4783 ISO_CODE_XXX in `coding.h'.
4785 Designations are done by the following escape sequences:
4786 ----------------------------------------------------------------------
4787 escape sequence description
4788 ----------------------------------------------------------------------
4789 ESC '(' <F> designate DIMENSION1_CHARS94<F> to G0
4790 ESC ')' <F> designate DIMENSION1_CHARS94<F> to G1
4791 ESC '*' <F> designate DIMENSION1_CHARS94<F> to G2
4792 ESC '+' <F> designate DIMENSION1_CHARS94<F> to G3
4793 ESC ',' <F> designate DIMENSION1_CHARS96<F> to G0 (*)
4794 ESC '-' <F> designate DIMENSION1_CHARS96<F> to G1
4795 ESC '.' <F> designate DIMENSION1_CHARS96<F> to G2
4796 ESC '/' <F> designate DIMENSION1_CHARS96<F> to G3
4797 ESC '$' '(' <F> designate DIMENSION2_CHARS94<F> to G0 (**)
4798 ESC '$' ')' <F> designate DIMENSION2_CHARS94<F> to G1
4799 ESC '$' '*' <F> designate DIMENSION2_CHARS94<F> to G2
4800 ESC '$' '+' <F> designate DIMENSION2_CHARS94<F> to G3
4801 ESC '$' ',' <F> designate DIMENSION2_CHARS96<F> to G0 (*)
4802 ESC '$' '-' <F> designate DIMENSION2_CHARS96<F> to G1
4803 ESC '$' '.' <F> designate DIMENSION2_CHARS96<F> to G2
4804 ESC '$' '/' <F> designate DIMENSION2_CHARS96<F> to G3
4805 ----------------------------------------------------------------------
4807 In this list, "DIMENSION1_CHARS94<F>" means a graphic character set
4808 of dimension 1, chars 94, and final character <F>, etc...
4810 Note (*): Although these designations are not allowed in ISO2022,
4811 Emacs accepts them on decoding, and produces them on encoding
4812 CHARS96 character sets in a coding system which is characterized as
4813 7-bit environment, non-locking-shift, and non-single-shift.
4815 Note (**): If <F> is '@', 'A', or 'B', the intermediate character
4816 '(' can be omitted. We refer to this as "short-form" hereafter.
4818 Now you may notice that there are a lot of ways for encoding the
4819 same multilingual text in ISO2022. Actually, there exist many
4820 coding systems such as Compound Text (used in X11's inter client
4821 communication, ISO-2022-JP (used in Japanese internet), ISO-2022-KR
4822 (used in Korean internet), EUC (Extended UNIX Code, used in Asian
4823 localized platforms), and all of these are variants of ISO2022.
4825 In addition to the above, Emacs handles two more kinds of escape
4826 sequences: ISO6429's direction specification and Emacs' private
4827 sequence for specifying character composition.
4829 ISO6429's direction specification takes the following form:
4830 o CSI ']' -- end of the current direction
4831 o CSI '0' ']' -- end of the current direction
4832 o CSI '1' ']' -- start of left-to-right text
4833 o CSI '2' ']' -- start of right-to-left text
4834 The control character CSI (0x9B: control sequence introducer) is
4835 abbreviated to the escape sequence ESC '[' in a 7-bit environment.
4837 Character composition specification takes the following form:
4838 o ESC '0' -- start character composition
4839 o ESC '1' -- end character composition
4840 Since these are not standard escape sequences of any ISO standard,
4841 their use with these meanings is restricted to Emacs only. */
4844 reset_iso2022 (Lisp_Object coding_system, struct iso2022_decoder *iso)
4848 for (i = 0; i < 4; i++)
4850 if (!NILP (coding_system))
4852 XCODING_SYSTEM_ISO2022_INITIAL_CHARSET (coding_system, i);
4854 iso->charset[i] = Qt;
4855 iso->invalid_designated[i] = 0;
4857 iso->esc = ISO_ESC_NOTHING;
4858 iso->esc_bytes_index = 0;
4859 iso->register_left = 0;
4860 iso->register_right = 1;
4861 iso->switched_dir_and_no_valid_charset_yet = 0;
4862 iso->invalid_switch_dir = 0;
4863 iso->output_direction_sequence = 0;
4864 iso->output_literally = 0;
4865 #ifdef ENABLE_COMPOSITE_CHARS
4866 if (iso->composite_chars)
4867 Dynarr_reset (iso->composite_chars);
4872 fit_to_be_escape_quoted (unsigned char c)
4889 /* Parse one byte of an ISO2022 escape sequence.
4890 If the result is an invalid escape sequence, return 0 and
4891 do not change anything in STR. Otherwise, if the result is
4892 an incomplete escape sequence, update ISO2022.ESC and
4893 ISO2022.ESC_BYTES and return -1. Otherwise, update
4894 all the state variables (but not ISO2022.ESC_BYTES) and
4897 If CHECK_INVALID_CHARSETS is non-zero, check for designation
4898 or invocation of an invalid character set and treat that as
4899 an unrecognized escape sequence. */
4902 parse_iso2022_esc (Lisp_Object codesys, struct iso2022_decoder *iso,
4903 unsigned char c, unsigned int *flags,
4904 int check_invalid_charsets)
4906 /* (1) If we're at the end of a designation sequence, CS is the
4907 charset being designated and REG is the register to designate
4910 (2) If we're at the end of a locking-shift sequence, REG is
4911 the register to invoke and HALF (0 == left, 1 == right) is
4912 the half to invoke it into.
4914 (3) If we're at the end of a single-shift sequence, REG is
4915 the register to invoke. */
4916 Lisp_Object cs = Qnil;
4919 /* NOTE: This code does goto's all over the fucking place.
4920 The reason for this is that we're basically implementing
4921 a state machine here, and hierarchical languages like C
4922 don't really provide a clean way of doing this. */
4924 if (! (*flags & CODING_STATE_ESCAPE))
4925 /* At beginning of escape sequence; we need to reset our
4926 escape-state variables. */
4927 iso->esc = ISO_ESC_NOTHING;
4929 iso->output_literally = 0;
4930 iso->output_direction_sequence = 0;
4934 case ISO_ESC_NOTHING:
4935 iso->esc_bytes_index = 0;
4938 case ISO_CODE_ESC: /* Start escape sequence */
4939 *flags |= CODING_STATE_ESCAPE;
4943 case ISO_CODE_CSI: /* ISO6429 (specifying directionality) */
4944 *flags |= CODING_STATE_ESCAPE;
4945 iso->esc = ISO_ESC_5_11;
4948 case ISO_CODE_SO: /* locking shift 1 */
4951 case ISO_CODE_SI: /* locking shift 0 */
4955 case ISO_CODE_SS2: /* single shift */
4958 case ISO_CODE_SS3: /* single shift */
4962 default: /* Other control characters */
4969 /**** single shift ****/
4971 case 'N': /* single shift 2 */
4974 case 'O': /* single shift 3 */
4978 /**** locking shift ****/
4980 case '~': /* locking shift 1 right */
4983 case 'n': /* locking shift 2 */
4986 case '}': /* locking shift 2 right */
4989 case 'o': /* locking shift 3 */
4992 case '|': /* locking shift 3 right */
4996 #ifdef ENABLE_COMPOSITE_CHARS
4997 /**** composite ****/
5000 iso->esc = ISO_ESC_START_COMPOSITE;
5001 *flags = (*flags & CODING_STATE_ISO2022_LOCK) |
5002 CODING_STATE_COMPOSITE;
5006 iso->esc = ISO_ESC_END_COMPOSITE;
5007 *flags = (*flags & CODING_STATE_ISO2022_LOCK) &
5008 ~CODING_STATE_COMPOSITE;
5010 #endif /* ENABLE_COMPOSITE_CHARS */
5012 /**** directionality ****/
5015 iso->esc = ISO_ESC_5_11;
5018 /**** designation ****/
5020 case '$': /* multibyte charset prefix */
5021 iso->esc = ISO_ESC_2_4;
5025 if (0x28 <= c && c <= 0x2F)
5027 iso->esc = (enum iso_esc_flag) (c - 0x28 + ISO_ESC_2_8);
5031 /* This function is called with CODESYS equal to nil when
5032 doing coding-system detection. */
5034 && XCODING_SYSTEM_ISO2022_ESCAPE_QUOTED (codesys)
5035 && fit_to_be_escape_quoted (c))
5037 iso->esc = ISO_ESC_LITERAL;
5038 *flags &= CODING_STATE_ISO2022_LOCK;
5048 /**** directionality ****/
5050 case ISO_ESC_5_11: /* ISO6429 direction control */
5053 *flags &= (CODING_STATE_ISO2022_LOCK & ~CODING_STATE_R2L);
5054 goto directionality;
5056 if (c == '0') iso->esc = ISO_ESC_5_11_0;
5057 else if (c == '1') iso->esc = ISO_ESC_5_11_1;
5058 else if (c == '2') iso->esc = ISO_ESC_5_11_2;
5062 case ISO_ESC_5_11_0:
5065 *flags &= (CODING_STATE_ISO2022_LOCK & ~CODING_STATE_R2L);
5066 goto directionality;
5070 case ISO_ESC_5_11_1:
5073 *flags = (CODING_STATE_ISO2022_LOCK & ~CODING_STATE_R2L);
5074 goto directionality;
5078 case ISO_ESC_5_11_2:
5081 *flags = (*flags & CODING_STATE_ISO2022_LOCK) | CODING_STATE_R2L;
5082 goto directionality;
5087 iso->esc = ISO_ESC_DIRECTIONALITY;
5088 /* Various junk here to attempt to preserve the direction sequences
5089 literally in the text if they would otherwise be swallowed due
5090 to invalid designations that don't show up as actual charset
5091 changes in the text. */
5092 if (iso->invalid_switch_dir)
5094 /* We already inserted a direction switch literally into the
5095 text. We assume (#### this may not be right) that the
5096 next direction switch is the one going the other way,
5097 and we need to output that literally as well. */
5098 iso->output_literally = 1;
5099 iso->invalid_switch_dir = 0;
5105 /* If we are in the thrall of an invalid designation,
5106 then stick the directionality sequence literally into the
5107 output stream so it ends up in the original text again. */
5108 for (jj = 0; jj < 4; jj++)
5109 if (iso->invalid_designated[jj])
5113 iso->output_literally = 1;
5114 iso->invalid_switch_dir = 1;
5117 /* Indicate that we haven't yet seen a valid designation,
5118 so that if a switch-dir is directly followed by an
5119 invalid designation, both get inserted literally. */
5120 iso->switched_dir_and_no_valid_charset_yet = 1;
5125 /**** designation ****/
5128 if (0x28 <= c && c <= 0x2F)
5130 iso->esc = (enum iso_esc_flag) (c - 0x28 + ISO_ESC_2_4_8);
5133 if (0x40 <= c && c <= 0x42)
5136 cs = CHARSET_BY_ATTRIBUTES (94, -1, c,
5137 *flags & CODING_STATE_R2L ?
5138 CHARSET_RIGHT_TO_LEFT :
5139 CHARSET_LEFT_TO_RIGHT);
5150 if (c < '0' || c > '~')
5151 return 0; /* bad final byte */
5153 if (iso->esc >= ISO_ESC_2_8 &&
5154 iso->esc <= ISO_ESC_2_15)
5156 chars = (iso->esc >= ISO_ESC_2_12) ? 96 : 94;
5157 single = 1; /* single-byte */
5158 reg = (iso->esc - ISO_ESC_2_8) & 3;
5160 else if (iso->esc >= ISO_ESC_2_4_8 &&
5161 iso->esc <= ISO_ESC_2_4_15)
5163 chars = (iso->esc >= ISO_ESC_2_4_12) ? 96 : 94;
5164 single = -1; /* multi-byte */
5165 reg = (iso->esc - ISO_ESC_2_4_8) & 3;
5169 /* Can this ever be reached? -slb */
5173 cs = CHARSET_BY_ATTRIBUTES (chars, single, c,
5174 *flags & CODING_STATE_R2L ?
5175 CHARSET_RIGHT_TO_LEFT :
5176 CHARSET_LEFT_TO_RIGHT);
5182 iso->esc_bytes[iso->esc_bytes_index++] = (unsigned char) c;
5186 if (check_invalid_charsets && !CHARSETP (iso->charset[reg]))
5187 /* can't invoke something that ain't there. */
5189 iso->esc = ISO_ESC_SINGLE_SHIFT;
5190 *flags &= CODING_STATE_ISO2022_LOCK;
5192 *flags |= CODING_STATE_SS2;
5194 *flags |= CODING_STATE_SS3;
5198 if (check_invalid_charsets &&
5199 !CHARSETP (iso->charset[reg]))
5200 /* can't invoke something that ain't there. */
5203 iso->register_right = reg;
5205 iso->register_left = reg;
5206 *flags &= CODING_STATE_ISO2022_LOCK;
5207 iso->esc = ISO_ESC_LOCKING_SHIFT;
5211 if (NILP (cs) && check_invalid_charsets)
5213 iso->invalid_designated[reg] = 1;
5214 iso->charset[reg] = Vcharset_ascii;
5215 iso->esc = ISO_ESC_DESIGNATE;
5216 *flags &= CODING_STATE_ISO2022_LOCK;
5217 iso->output_literally = 1;
5218 if (iso->switched_dir_and_no_valid_charset_yet)
5220 /* We encountered a switch-direction followed by an
5221 invalid designation. Ensure that the switch-direction
5222 gets outputted; otherwise it will probably get eaten
5223 when the text is written out again. */
5224 iso->switched_dir_and_no_valid_charset_yet = 0;
5225 iso->output_direction_sequence = 1;
5226 /* And make sure that the switch-dir going the other
5227 way gets outputted, as well. */
5228 iso->invalid_switch_dir = 1;
5232 /* This function is called with CODESYS equal to nil when
5233 doing coding-system detection. */
5234 if (!NILP (codesys))
5236 charset_conversion_spec_dynarr *dyn =
5237 XCODING_SYSTEM (codesys)->iso2022.input_conv;
5243 for (i = 0; i < Dynarr_length (dyn); i++)
5245 struct charset_conversion_spec *spec = Dynarr_atp (dyn, i);
5246 if (EQ (cs, spec->from_charset))
5247 cs = spec->to_charset;
5252 iso->charset[reg] = cs;
5253 iso->esc = ISO_ESC_DESIGNATE;
5254 *flags &= CODING_STATE_ISO2022_LOCK;
5255 if (iso->invalid_designated[reg])
5257 iso->invalid_designated[reg] = 0;
5258 iso->output_literally = 1;
5260 if (iso->switched_dir_and_no_valid_charset_yet)
5261 iso->switched_dir_and_no_valid_charset_yet = 0;
5266 detect_coding_iso2022 (struct detection_state *st, const Extbyte *src, Lstream_data_count n)
5270 /* #### There are serious deficiencies in the recognition mechanism
5271 here. This needs to be much smarter if it's going to cut it.
5272 The sequence "\xff\x0f" is currently detected as LOCK_SHIFT while
5273 it should be detected as Latin-1.
5274 All the ISO2022 stuff in this file should be synced up with the
5275 code from FSF Emacs-20.4, in which Mule should be more or less stable.
5276 Perhaps we should wait till R2L works in FSF Emacs? */
5278 if (!st->iso2022.initted)
5280 reset_iso2022 (Qnil, &st->iso2022.iso);
5281 st->iso2022.mask = (CODING_CATEGORY_ISO_7_MASK |
5282 CODING_CATEGORY_ISO_8_DESIGNATE_MASK |
5283 CODING_CATEGORY_ISO_8_1_MASK |
5284 CODING_CATEGORY_ISO_8_2_MASK |
5285 CODING_CATEGORY_ISO_LOCK_SHIFT_MASK);
5286 st->iso2022.flags = 0;
5287 st->iso2022.high_byte_count = 0;
5288 st->iso2022.saw_single_shift = 0;
5289 st->iso2022.initted = 1;
5292 mask = st->iso2022.mask;
5296 unsigned char c = *(unsigned char *)src++;
5299 mask &= ~CODING_CATEGORY_ISO_7_MASK;
5300 st->iso2022.high_byte_count++;
5304 if (st->iso2022.high_byte_count && !st->iso2022.saw_single_shift)
5306 if (st->iso2022.high_byte_count & 1)
5307 /* odd number of high bytes; assume not iso-8-2 */
5308 mask &= ~CODING_CATEGORY_ISO_8_2_MASK;
5310 st->iso2022.high_byte_count = 0;
5311 st->iso2022.saw_single_shift = 0;
5313 mask &= ~CODING_CATEGORY_ISO_7_MASK;
5315 if (!(st->iso2022.flags & CODING_STATE_ESCAPE)
5316 && (BYTE_C0_P (c) || BYTE_C1_P (c)))
5317 { /* control chars */
5320 /* Allow and ignore control characters that you might
5321 reasonably see in a text file */
5326 case 8: /* backspace */
5327 case 11: /* vertical tab */
5328 case 12: /* form feed */
5329 case 26: /* MS-DOS C-z junk */
5330 case 31: /* '^_' -- for info */
5331 goto label_continue_loop;
5338 if ((st->iso2022.flags & CODING_STATE_ESCAPE) || BYTE_C0_P (c)
5341 if (parse_iso2022_esc (Qnil, &st->iso2022.iso, c,
5342 &st->iso2022.flags, 0))
5344 switch (st->iso2022.iso.esc)
5346 case ISO_ESC_DESIGNATE:
5347 mask &= ~CODING_CATEGORY_ISO_8_1_MASK;
5348 mask &= ~CODING_CATEGORY_ISO_8_2_MASK;
5350 case ISO_ESC_LOCKING_SHIFT:
5351 mask = CODING_CATEGORY_ISO_LOCK_SHIFT_MASK;
5352 goto ran_out_of_chars;
5353 case ISO_ESC_SINGLE_SHIFT:
5354 mask &= ~CODING_CATEGORY_ISO_8_DESIGNATE_MASK;
5355 st->iso2022.saw_single_shift = 1;
5364 goto ran_out_of_chars;
5367 label_continue_loop:;
5376 postprocess_iso2022_mask (int mask)
5378 /* #### kind of cheesy */
5379 /* If seven-bit ISO is allowed, then assume that the encoding is
5380 entirely seven-bit and turn off the eight-bit ones. */
5381 if (mask & CODING_CATEGORY_ISO_7_MASK)
5382 mask &= ~ (CODING_CATEGORY_ISO_8_DESIGNATE_MASK |
5383 CODING_CATEGORY_ISO_8_1_MASK |
5384 CODING_CATEGORY_ISO_8_2_MASK);
5388 /* If FLAGS is a null pointer or specifies right-to-left motion,
5389 output a switch-dir-to-left-to-right sequence to DST.
5390 Also update FLAGS if it is not a null pointer.
5391 If INTERNAL_P is set, we are outputting in internal format and
5392 need to handle the CSI differently. */
5395 restore_left_to_right_direction (Lisp_Coding_System *codesys,
5396 unsigned_char_dynarr *dst,
5397 unsigned int *flags,
5400 if (!flags || (*flags & CODING_STATE_R2L))
5402 if (CODING_SYSTEM_ISO2022_SEVEN (codesys))
5404 Dynarr_add (dst, ISO_CODE_ESC);
5405 Dynarr_add (dst, '[');
5407 else if (internal_p)
5408 DECODE_ADD_BINARY_CHAR (ISO_CODE_CSI, dst);
5410 Dynarr_add (dst, ISO_CODE_CSI);
5411 Dynarr_add (dst, '0');
5412 Dynarr_add (dst, ']');
5414 *flags &= ~CODING_STATE_R2L;
5418 /* If FLAGS is a null pointer or specifies a direction different from
5419 DIRECTION (which should be either CHARSET_RIGHT_TO_LEFT or
5420 CHARSET_LEFT_TO_RIGHT), output the appropriate switch-dir escape
5421 sequence to DST. Also update FLAGS if it is not a null pointer.
5422 If INTERNAL_P is set, we are outputting in internal format and
5423 need to handle the CSI differently. */
5426 ensure_correct_direction (int direction, Lisp_Coding_System *codesys,
5427 unsigned_char_dynarr *dst, unsigned int *flags,
5430 if ((!flags || (*flags & CODING_STATE_R2L)) &&
5431 direction == CHARSET_LEFT_TO_RIGHT)
5432 restore_left_to_right_direction (codesys, dst, flags, internal_p);
5433 else if (!CODING_SYSTEM_ISO2022_NO_ISO6429 (codesys)
5434 && (!flags || !(*flags & CODING_STATE_R2L)) &&
5435 direction == CHARSET_RIGHT_TO_LEFT)
5437 if (CODING_SYSTEM_ISO2022_SEVEN (codesys))
5439 Dynarr_add (dst, ISO_CODE_ESC);
5440 Dynarr_add (dst, '[');
5442 else if (internal_p)
5443 DECODE_ADD_BINARY_CHAR (ISO_CODE_CSI, dst);
5445 Dynarr_add (dst, ISO_CODE_CSI);
5446 Dynarr_add (dst, '2');
5447 Dynarr_add (dst, ']');
5449 *flags |= CODING_STATE_R2L;
5453 /* Convert ISO2022-format data to internal format. */
5456 decode_coding_iso2022 (Lstream *decoding, const Extbyte *src,
5457 unsigned_char_dynarr *dst, Lstream_data_count n)
5459 struct decoding_stream *str = DECODING_STREAM_DATA (decoding);
5460 unsigned int flags = str->flags;
5461 unsigned int cpos = str->cpos;
5462 unsigned char counter = str->counter;
5463 eol_type_t eol_type = str->eol_type;
5464 #ifdef ENABLE_COMPOSITE_CHARS
5465 unsigned_char_dynarr *real_dst = dst;
5467 Lisp_Object coding_system;
5469 XSETCODING_SYSTEM (coding_system, str->codesys);
5471 #ifdef ENABLE_COMPOSITE_CHARS
5472 if (flags & CODING_STATE_COMPOSITE)
5473 dst = str->iso2022.composite_chars;
5474 #endif /* ENABLE_COMPOSITE_CHARS */
5478 unsigned char c = *(unsigned char *)src++;
5479 if (flags & CODING_STATE_ESCAPE)
5480 { /* Within ESC sequence */
5481 int retval = parse_iso2022_esc (coding_system, &str->iso2022,
5486 switch (str->iso2022.esc)
5488 #ifdef ENABLE_COMPOSITE_CHARS
5489 case ISO_ESC_START_COMPOSITE:
5490 if (str->iso2022.composite_chars)
5491 Dynarr_reset (str->iso2022.composite_chars);
5493 str->iso2022.composite_chars = Dynarr_new (unsigned_char);
5494 dst = str->iso2022.composite_chars;
5496 case ISO_ESC_END_COMPOSITE:
5498 Bufbyte comstr[MAX_EMCHAR_LEN];
5500 Emchar emch = lookup_composite_char (Dynarr_atp (dst, 0),
5501 Dynarr_length (dst));
5503 len = set_charptr_emchar (comstr, emch);
5504 Dynarr_add_many (dst, comstr, len);
5507 #endif /* ENABLE_COMPOSITE_CHARS */
5509 case ISO_ESC_LITERAL:
5510 COMPOSE_FLUSH_CHARS (str, dst);
5511 decode_flush_er_chars (str, dst);
5512 DECODE_ADD_BINARY_CHAR (c, dst);
5516 /* Everything else handled already */
5521 /* Attempted error recovery. */
5522 if (str->iso2022.output_direction_sequence)
5523 ensure_correct_direction (flags & CODING_STATE_R2L ?
5524 CHARSET_RIGHT_TO_LEFT :
5525 CHARSET_LEFT_TO_RIGHT,
5526 str->codesys, dst, 0, 1);
5527 /* More error recovery. */
5528 if (!retval || str->iso2022.output_literally)
5530 /* Output the (possibly invalid) sequence */
5532 COMPOSE_FLUSH_CHARS (str, dst);
5533 decode_flush_er_chars (str, dst);
5534 for (i = 0; i < str->iso2022.esc_bytes_index; i++)
5535 DECODE_ADD_BINARY_CHAR (str->iso2022.esc_bytes[i], dst);
5536 flags &= CODING_STATE_ISO2022_LOCK;
5538 n++, src--;/* Repeat the loop with the same character. */
5541 /* No sense in reprocessing the final byte of the
5542 escape sequence; it could mess things up anyway.
5544 COMPOSE_FLUSH_CHARS (str, dst);
5545 decode_flush_er_chars (str, dst);
5546 DECODE_ADD_BINARY_CHAR (c, dst);
5552 else if (BYTE_C0_P (c) || BYTE_C1_P (c))
5553 { /* Control characters */
5555 /***** Error-handling *****/
5557 /* If we were in the middle of a character, dump out the
5558 partial character. */
5561 COMPOSE_FLUSH_CHARS (str, dst);
5562 decode_flush_er_chars (str, dst);
5566 DECODE_ADD_BINARY_CHAR
5567 ((unsigned char)(cpos >> (counter * 8)), dst);
5572 /* If we just saw a single-shift character, dump it out.
5573 This may dump out the wrong sort of single-shift character,
5574 but least it will give an indication that something went
5576 if (flags & CODING_STATE_SS2)
5578 COMPOSE_FLUSH_CHARS (str, dst);
5579 decode_flush_er_chars (str, dst);
5580 DECODE_ADD_BINARY_CHAR (ISO_CODE_SS2, dst);
5581 flags &= ~CODING_STATE_SS2;
5583 if (flags & CODING_STATE_SS3)
5585 COMPOSE_FLUSH_CHARS (str, dst);
5586 decode_flush_er_chars (str, dst);
5587 DECODE_ADD_BINARY_CHAR (ISO_CODE_SS3, dst);
5588 flags &= ~CODING_STATE_SS3;
5591 /***** Now handle the control characters. *****/
5597 COMPOSE_FLUSH_CHARS (str, dst);
5598 decode_flush_er_chars (str, dst);
5599 if (eol_type == EOL_CR)
5600 Dynarr_add (dst, '\n');
5601 else if (eol_type != EOL_CRLF || flags & CODING_STATE_CR)
5602 Dynarr_add (dst, c);
5604 flags |= CODING_STATE_CR;
5605 goto label_continue_loop;
5607 else if (flags & CODING_STATE_CR)
5608 { /* eol_type == CODING_SYSTEM_EOL_CRLF */
5610 Dynarr_add (dst, '\r');
5611 flags &= ~CODING_STATE_CR;
5614 DECODE_HANDLE_EOL_TYPE (eol_type, c, flags, dst);
5617 flags &= CODING_STATE_ISO2022_LOCK;
5619 if (!parse_iso2022_esc (coding_system, &str->iso2022, c, &flags, 1))
5621 COMPOSE_FLUSH_CHARS (str, dst);
5622 decode_flush_er_chars (str, dst);
5623 DECODE_ADD_BINARY_CHAR (c, dst);
5627 { /* Graphic characters */
5628 Lisp_Object charset;
5637 COMPOSE_FLUSH_CHARS (str, dst);
5638 decode_flush_er_chars (str, dst);
5639 if (eol_type == EOL_CR)
5640 Dynarr_add (dst, '\n');
5641 else if (eol_type != EOL_CRLF || flags & CODING_STATE_CR)
5642 Dynarr_add (dst, c);
5644 flags |= CODING_STATE_CR;
5645 goto label_continue_loop;
5647 else if (flags & CODING_STATE_CR)
5648 { /* eol_type == CODING_SYSTEM_EOL_CRLF */
5650 Dynarr_add (dst, '\r');
5651 flags &= ~CODING_STATE_CR;
5654 DECODE_HANDLE_EOL_TYPE (eol_type, c, flags, dst);
5657 /* Now determine the charset. */
5658 reg = ((flags & CODING_STATE_SS2) ? 2
5659 : (flags & CODING_STATE_SS3) ? 3
5660 : !BYTE_ASCII_P (c) ? str->iso2022.register_right
5661 : str->iso2022.register_left);
5662 charset = str->iso2022.charset[reg];
5664 /* Error checking: */
5665 if (! CHARSETP (charset)
5666 || str->iso2022.invalid_designated[reg]
5667 || (((c & 0x7F) == ' ' || (c & 0x7F) == ISO_CODE_DEL)
5668 && XCHARSET_CHARS (charset) == 94))
5669 /* Mrmph. We are trying to invoke a register that has no
5670 or an invalid charset in it, or trying to add a character
5671 outside the range of the charset. Insert that char literally
5672 to preserve it for the output. */
5674 COMPOSE_FLUSH_CHARS (str, dst);
5675 decode_flush_er_chars (str, dst);
5679 DECODE_ADD_BINARY_CHAR
5680 ((unsigned char)(cpos >> (counter * 8)), dst);
5683 DECODE_ADD_BINARY_CHAR (c, dst);
5688 /* Things are probably hunky-dorey. */
5690 /* Fetch reverse charset, maybe. */
5691 if (((flags & CODING_STATE_R2L) &&
5692 XCHARSET_DIRECTION (charset) == CHARSET_LEFT_TO_RIGHT)
5694 (!(flags & CODING_STATE_R2L) &&
5695 XCHARSET_DIRECTION (charset) == CHARSET_RIGHT_TO_LEFT))
5697 Lisp_Object new_charset =
5698 XCHARSET_REVERSE_DIRECTION_CHARSET (charset);
5699 if (!NILP (new_charset))
5700 charset = new_charset;
5705 if (XCHARSET_DIMENSION (charset) == counter)
5707 COMPOSE_ADD_CHAR (str,
5708 DECODE_CHAR (charset,
5709 ((cpos & 0x7F7F7F) << 8)
5716 cpos = (cpos << 8) | c;
5718 lb = XCHARSET_LEADING_BYTE (charset);
5719 switch (XCHARSET_REP_BYTES (charset))
5722 DECODE_OUTPUT_PARTIAL_CHAR (ch);
5723 Dynarr_add (dst, c & 0x7F);
5726 case 2: /* one-byte official */
5727 DECODE_OUTPUT_PARTIAL_CHAR (ch);
5728 Dynarr_add (dst, lb);
5729 Dynarr_add (dst, c | 0x80);
5732 case 3: /* one-byte private or two-byte official */
5733 if (XCHARSET_PRIVATE_P (charset))
5735 DECODE_OUTPUT_PARTIAL_CHAR (ch);
5736 Dynarr_add (dst, PRE_LEADING_BYTE_PRIVATE_1);
5737 Dynarr_add (dst, lb);
5738 Dynarr_add (dst, c | 0x80);
5744 Dynarr_add (dst, lb);
5745 Dynarr_add (dst, ch | 0x80);
5746 Dynarr_add (dst, c | 0x80);
5754 default: /* two-byte private */
5757 Dynarr_add (dst, PRE_LEADING_BYTE_PRIVATE_2);
5758 Dynarr_add (dst, lb);
5759 Dynarr_add (dst, ch | 0x80);
5760 Dynarr_add (dst, c | 0x80);
5770 flags &= CODING_STATE_ISO2022_LOCK;
5773 label_continue_loop:;
5776 if (flags & CODING_STATE_END)
5778 COMPOSE_FLUSH_CHARS (str, dst);
5779 decode_flush_er_chars (str, dst);
5780 DECODE_OUTPUT_PARTIAL_CHAR (cpos);
5784 str->counter = counter;
5788 /***** ISO2022 encoder *****/
5790 /* Designate CHARSET into register REG. */
5793 iso2022_designate (Lisp_Object charset, unsigned char reg,
5794 struct encoding_stream *str, unsigned_char_dynarr *dst)
5796 static const char inter94[] = "()*+";
5797 static const char inter96[] = ",-./";
5798 unsigned short chars;
5799 unsigned char dimension;
5800 unsigned char final;
5801 Lisp_Object old_charset = str->iso2022.charset[reg];
5803 str->iso2022.charset[reg] = charset;
5804 if (!CHARSETP (charset))
5805 /* charset might be an initial nil or t. */
5807 chars = XCHARSET_CHARS (charset);
5808 dimension = XCHARSET_DIMENSION (charset);
5809 final = XCHARSET_FINAL (charset);
5810 if (!str->iso2022.force_charset_on_output[reg] &&
5811 CHARSETP (old_charset) &&
5812 XCHARSET_CHARS (old_charset) == chars &&
5813 XCHARSET_DIMENSION (old_charset) == dimension &&
5814 XCHARSET_FINAL (old_charset) == final)
5817 str->iso2022.force_charset_on_output[reg] = 0;
5820 charset_conversion_spec_dynarr *dyn =
5821 str->codesys->iso2022.output_conv;
5827 for (i = 0; i < Dynarr_length (dyn); i++)
5829 struct charset_conversion_spec *spec = Dynarr_atp (dyn, i);
5830 if (EQ (charset, spec->from_charset))
5831 charset = spec->to_charset;
5836 Dynarr_add (dst, ISO_CODE_ESC);
5841 Dynarr_add (dst, inter94[reg]);
5844 Dynarr_add (dst, '$');
5846 || !(CODING_SYSTEM_ISO2022_SHORT (str->codesys))
5849 Dynarr_add (dst, inter94[reg]);
5854 Dynarr_add (dst, inter96[reg]);
5857 Dynarr_add (dst, '$');
5858 Dynarr_add (dst, inter96[reg]);
5862 Dynarr_add (dst, final);
5866 ensure_normal_shift (struct encoding_stream *str, unsigned_char_dynarr *dst)
5868 if (str->iso2022.register_left != 0)
5870 Dynarr_add (dst, ISO_CODE_SI);
5871 str->iso2022.register_left = 0;
5876 ensure_shift_out (struct encoding_stream *str, unsigned_char_dynarr *dst)
5878 if (str->iso2022.register_left != 1)
5880 Dynarr_add (dst, ISO_CODE_SO);
5881 str->iso2022.register_left = 1;
5886 char_encode_iso2022 (struct encoding_stream *str, Emchar ch,
5887 unsigned_char_dynarr *dst, unsigned int *flags)
5889 unsigned char charmask;
5890 Lisp_Coding_System* codesys = str->codesys;
5891 eol_type_t eol_type = CODING_SYSTEM_EOL_TYPE (str->codesys);
5893 Lisp_Object charset = str->iso2022.current_charset;
5894 int half = str->iso2022.current_half;
5895 int code_point = -1;
5899 restore_left_to_right_direction (codesys, dst, flags, 0);
5901 /* Make sure G0 contains ASCII */
5902 if ((ch > ' ' && ch < ISO_CODE_DEL)
5903 || !CODING_SYSTEM_ISO2022_NO_ASCII_CNTL (codesys))
5905 ensure_normal_shift (str, dst);
5906 iso2022_designate (Vcharset_ascii, 0, str, dst);
5909 /* If necessary, restore everything to the default state
5911 if (ch == '\n' && !(CODING_SYSTEM_ISO2022_NO_ASCII_EOL (codesys)))
5913 restore_left_to_right_direction (codesys, dst, flags, 0);
5915 ensure_normal_shift (str, dst);
5917 for (i = 0; i < 4; i++)
5919 Lisp_Object initial_charset =
5920 CODING_SYSTEM_ISO2022_INITIAL_CHARSET (codesys, i);
5921 iso2022_designate (initial_charset, i, str, dst);
5926 if (eol_type != EOL_LF && eol_type != EOL_AUTODETECT)
5927 Dynarr_add (dst, '\r');
5928 if (eol_type != EOL_CR)
5929 Dynarr_add (dst, ch);
5933 if (CODING_SYSTEM_ISO2022_ESCAPE_QUOTED (codesys)
5934 && fit_to_be_escape_quoted (ch))
5935 Dynarr_add (dst, ISO_CODE_ESC);
5936 Dynarr_add (dst, ch);
5939 else if ( (0x80 <= ch) && (ch <= 0x9f) )
5941 charmask = (half == 0 ? 0x00 : 0x80);
5943 if (CODING_SYSTEM_ISO2022_ESCAPE_QUOTED (codesys)
5944 && fit_to_be_escape_quoted (ch))
5945 Dynarr_add (dst, ISO_CODE_ESC);
5946 /* you asked for it ... */
5947 Dynarr_add (dst, ch);
5953 /* Now determine which register to use. */
5955 for (i = 0; i < 4; i++)
5957 if ((CHARSETP (charset = str->iso2022.charset[i])
5958 && ((code_point = charset_code_point (charset, ch, 0)) >= 0))
5962 = CODING_SYSTEM_ISO2022_INITIAL_CHARSET (codesys, i))
5963 && ((code_point = charset_code_point (charset, ch, 0)) >= 0)))
5971 Lisp_Object original_default_coded_charset_priority_list
5972 = Vdefault_coded_charset_priority_list;
5974 while (!EQ (Vdefault_coded_charset_priority_list, Qnil))
5976 code_point = ENCODE_CHAR (ch, charset);
5977 if (XCHARSET_FINAL (charset))
5979 Vdefault_coded_charset_priority_list
5980 = Fcdr (Fmemq (XCHARSET_NAME (charset),
5981 Vdefault_coded_charset_priority_list));
5983 code_point = ENCODE_CHAR (ch, charset);
5984 if (!XCHARSET_FINAL (charset))
5986 charset = Vcharset_ascii;
5990 Vdefault_coded_charset_priority_list
5991 = original_default_coded_charset_priority_list;
5993 ensure_correct_direction (XCHARSET_DIRECTION (charset),
5994 codesys, dst, flags, 0);
5998 if (XCHARSET_GRAPHIC (charset) != 0)
6000 if (!NILP (str->iso2022.charset[1]) &&
6001 (!CODING_SYSTEM_ISO2022_SEVEN (codesys)
6002 || CODING_SYSTEM_ISO2022_LOCK_SHIFT (codesys)))
6004 else if (!NILP (str->iso2022.charset[2]))
6006 else if (!NILP (str->iso2022.charset[3]))
6015 iso2022_designate (charset, reg, str, dst);
6017 /* Now invoke that register. */
6021 ensure_normal_shift (str, dst);
6025 if (CODING_SYSTEM_ISO2022_SEVEN (codesys))
6027 ensure_shift_out (str, dst);
6034 if (CODING_SYSTEM_ISO2022_SEVEN (str->codesys))
6036 Dynarr_add (dst, ISO_CODE_ESC);
6037 Dynarr_add (dst, 'N');
6042 Dynarr_add (dst, ISO_CODE_SS2);
6047 if (CODING_SYSTEM_ISO2022_SEVEN (str->codesys))
6049 Dynarr_add (dst, ISO_CODE_ESC);
6050 Dynarr_add (dst, 'O');
6055 Dynarr_add (dst, ISO_CODE_SS3);
6063 charmask = (half == 0 ? 0x00 : 0x80);
6065 switch (XCHARSET_DIMENSION (charset))
6068 Dynarr_add (dst, (code_point & 0xFF) | charmask);
6071 Dynarr_add (dst, ((code_point >> 8) & 0xFF) | charmask);
6072 Dynarr_add (dst, ( code_point & 0xFF) | charmask);
6075 Dynarr_add (dst, ((code_point >> 16) & 0xFF) | charmask);
6076 Dynarr_add (dst, ((code_point >> 8) & 0xFF) | charmask);
6077 Dynarr_add (dst, ( code_point & 0xFF) | charmask);
6080 Dynarr_add (dst, ((code_point >> 24) & 0xFF) | charmask);
6081 Dynarr_add (dst, ((code_point >> 16) & 0xFF) | charmask);
6082 Dynarr_add (dst, ((code_point >> 8) & 0xFF) | charmask);
6083 Dynarr_add (dst, ( code_point & 0xFF) | charmask);
6089 str->iso2022.current_charset = charset;
6090 str->iso2022.current_half = half;
6094 char_finish_iso2022 (struct encoding_stream *str, unsigned_char_dynarr *dst,
6095 unsigned int *flags)
6097 Lisp_Coding_System* codesys = str->codesys;
6100 restore_left_to_right_direction (codesys, dst, flags, 0);
6101 ensure_normal_shift (str, dst);
6102 for (i = 0; i < 4; i++)
6104 Lisp_Object initial_charset
6105 = CODING_SYSTEM_ISO2022_INITIAL_CHARSET (codesys, i);
6106 iso2022_designate (initial_charset, i, str, dst);
6111 /************************************************************************/
6112 /* No-conversion methods */
6113 /************************************************************************/
6115 /* This is used when reading in "binary" files -- i.e. files that may
6116 contain all 256 possible byte values and that are not to be
6117 interpreted as being in any particular decoding. */
6119 decode_coding_no_conversion (Lstream *decoding, const Extbyte *src,
6120 unsigned_char_dynarr *dst, Lstream_data_count n)
6122 struct decoding_stream *str = DECODING_STREAM_DATA (decoding);
6123 unsigned int flags = str->flags;
6124 unsigned int cpos = str->cpos;
6125 eol_type_t eol_type = str->eol_type;
6129 unsigned char c = *(unsigned char *)src++;
6131 DECODE_HANDLE_EOL_TYPE (eol_type, c, flags, dst);
6132 DECODE_ADD_BINARY_CHAR (c, dst);
6133 label_continue_loop:;
6136 DECODE_HANDLE_END_OF_CONVERSION (flags, cpos, dst);
6143 encode_coding_no_conversion (Lstream *encoding, const Bufbyte *src,
6144 unsigned_char_dynarr *dst, Lstream_data_count n)
6147 struct encoding_stream *str = ENCODING_STREAM_DATA (encoding);
6148 unsigned int flags = str->flags;
6149 unsigned int ch = str->ch;
6150 eol_type_t eol_type = CODING_SYSTEM_EOL_TYPE (str->codesys);
6152 unsigned char char_boundary = str->iso2022.current_char_boundary;
6159 if (char_boundary == 0)
6165 else if ( c >= 0xf8 )
6170 else if ( c >= 0xf0 )
6175 else if ( c >= 0xe0 )
6180 else if ( c >= 0xc0 )
6190 if (eol_type != EOL_LF && eol_type != EOL_AUTODETECT)
6191 Dynarr_add (dst, '\r');
6192 if (eol_type != EOL_CR)
6193 Dynarr_add (dst, c);
6196 Dynarr_add (dst, c);
6199 else if (char_boundary == 1)
6201 ch = ( ch << 6 ) | ( c & 0x3f );
6202 Dynarr_add (dst, ch & 0xff);
6207 ch = ( ch << 6 ) | ( c & 0x3f );
6210 #else /* not UTF2000 */
6213 if (eol_type != EOL_LF && eol_type != EOL_AUTODETECT)
6214 Dynarr_add (dst, '\r');
6215 if (eol_type != EOL_CR)
6216 Dynarr_add (dst, '\n');
6219 else if (BYTE_ASCII_P (c))
6222 Dynarr_add (dst, c);
6224 else if (BUFBYTE_LEADING_BYTE_P (c))
6227 if (c == LEADING_BYTE_LATIN_ISO8859_1 ||
6228 c == LEADING_BYTE_CONTROL_1)
6231 Dynarr_add (dst, '~'); /* untranslatable character */
6235 if (ch == LEADING_BYTE_LATIN_ISO8859_1)
6236 Dynarr_add (dst, c);
6237 else if (ch == LEADING_BYTE_CONTROL_1)
6240 Dynarr_add (dst, c - 0x20);
6242 /* else it should be the second or third byte of an
6243 untranslatable character, so ignore it */
6246 #endif /* not UTF2000 */
6252 str->iso2022.current_char_boundary = char_boundary;
6258 /************************************************************************/
6259 /* Initialization */
6260 /************************************************************************/
6263 syms_of_file_coding (void)
6265 INIT_LRECORD_IMPLEMENTATION (coding_system);
6267 DEFERROR_STANDARD (Qcoding_system_error, Qio_error);
6269 DEFSUBR (Fcoding_system_p);
6270 DEFSUBR (Ffind_coding_system);
6271 DEFSUBR (Fget_coding_system);
6272 DEFSUBR (Fcoding_system_list);
6273 DEFSUBR (Fcoding_system_name);
6274 DEFSUBR (Fmake_coding_system);
6275 DEFSUBR (Fcopy_coding_system);
6276 DEFSUBR (Fcoding_system_canonical_name_p);
6277 DEFSUBR (Fcoding_system_alias_p);
6278 DEFSUBR (Fcoding_system_aliasee);
6279 DEFSUBR (Fdefine_coding_system_alias);
6280 DEFSUBR (Fsubsidiary_coding_system);
6282 DEFSUBR (Fcoding_system_type);
6283 DEFSUBR (Fcoding_system_doc_string);
6285 DEFSUBR (Fcoding_system_charset);
6287 DEFSUBR (Fcoding_system_property);
6289 DEFSUBR (Fcoding_category_list);
6290 DEFSUBR (Fset_coding_priority_list);
6291 DEFSUBR (Fcoding_priority_list);
6292 DEFSUBR (Fset_coding_category_system);
6293 DEFSUBR (Fcoding_category_system);
6295 DEFSUBR (Fdetect_coding_region);
6296 DEFSUBR (Fdecode_coding_region);
6297 DEFSUBR (Fencode_coding_region);
6299 DEFSUBR (Fdecode_shift_jis_char);
6300 DEFSUBR (Fencode_shift_jis_char);
6301 DEFSUBR (Fdecode_big5_char);
6302 DEFSUBR (Fencode_big5_char);
6304 defsymbol (&Qcoding_systemp, "coding-system-p");
6305 defsymbol (&Qno_conversion, "no-conversion");
6306 defsymbol (&Qraw_text, "raw-text");
6308 defsymbol (&Qbig5, "big5");
6309 defsymbol (&Qshift_jis, "shift-jis");
6310 defsymbol (&Qucs4, "ucs-4");
6311 defsymbol (&Qutf8, "utf-8");
6312 defsymbol (&Qutf16, "utf-16");
6313 defsymbol (&Qccl, "ccl");
6314 defsymbol (&Qiso2022, "iso2022");
6316 defsymbol (&Qmnemonic, "mnemonic");
6317 defsymbol (&Qeol_type, "eol-type");
6318 defsymbol (&Qpost_read_conversion, "post-read-conversion");
6319 defsymbol (&Qpre_write_conversion, "pre-write-conversion");
6321 defsymbol (&Qcr, "cr");
6322 defsymbol (&Qlf, "lf");
6323 defsymbol (&Qcrlf, "crlf");
6324 defsymbol (&Qeol_cr, "eol-cr");
6325 defsymbol (&Qeol_lf, "eol-lf");
6326 defsymbol (&Qeol_crlf, "eol-crlf");
6328 defsymbol (&Qcharset_g0, "charset-g0");
6329 defsymbol (&Qcharset_g1, "charset-g1");
6330 defsymbol (&Qcharset_g2, "charset-g2");
6331 defsymbol (&Qcharset_g3, "charset-g3");
6332 defsymbol (&Qforce_g0_on_output, "force-g0-on-output");
6333 defsymbol (&Qforce_g1_on_output, "force-g1-on-output");
6334 defsymbol (&Qforce_g2_on_output, "force-g2-on-output");
6335 defsymbol (&Qforce_g3_on_output, "force-g3-on-output");
6336 defsymbol (&Qno_iso6429, "no-iso6429");
6337 defsymbol (&Qinput_charset_conversion, "input-charset-conversion");
6338 defsymbol (&Qoutput_charset_conversion, "output-charset-conversion");
6340 defsymbol (&Qshort, "short");
6341 defsymbol (&Qno_ascii_eol, "no-ascii-eol");
6342 defsymbol (&Qno_ascii_cntl, "no-ascii-cntl");
6343 defsymbol (&Qseven, "seven");
6344 defsymbol (&Qlock_shift, "lock-shift");
6345 defsymbol (&Qescape_quoted, "escape-quoted");
6348 defsymbol (&Qutf_8_mcs, "utf-8-mcs");
6349 defsymbol (&Qdisable_composition, "disable-composition");
6350 defsymbol (&Quse_entity_reference, "use-entity-reference");
6351 defsymbol (&Qd, "d");
6352 defsymbol (&Qx, "x");
6353 defsymbol (&QX, "X");
6355 defsymbol (&Qencode, "encode");
6356 defsymbol (&Qdecode, "decode");
6359 defsymbol (&coding_category_symbol[CODING_CATEGORY_SHIFT_JIS],
6361 defsymbol (&coding_category_symbol[CODING_CATEGORY_BIG5],
6363 defsymbol (&coding_category_symbol[CODING_CATEGORY_UCS4],
6365 defsymbol (&coding_category_symbol[CODING_CATEGORY_UTF16],
6367 defsymbol (&coding_category_symbol[CODING_CATEGORY_UTF8],
6369 defsymbol (&coding_category_symbol[CODING_CATEGORY_ISO_7],
6371 defsymbol (&coding_category_symbol[CODING_CATEGORY_ISO_8_DESIGNATE],
6373 defsymbol (&coding_category_symbol[CODING_CATEGORY_ISO_8_1],
6375 defsymbol (&coding_category_symbol[CODING_CATEGORY_ISO_8_2],
6377 defsymbol (&coding_category_symbol[CODING_CATEGORY_ISO_LOCK_SHIFT],
6380 defsymbol (&coding_category_symbol[CODING_CATEGORY_NO_CONVERSION],
6385 lstream_type_create_file_coding (void)
6387 LSTREAM_HAS_METHOD (decoding, reader);
6388 LSTREAM_HAS_METHOD (decoding, writer);
6389 LSTREAM_HAS_METHOD (decoding, rewinder);
6390 LSTREAM_HAS_METHOD (decoding, seekable_p);
6391 LSTREAM_HAS_METHOD (decoding, flusher);
6392 LSTREAM_HAS_METHOD (decoding, closer);
6393 LSTREAM_HAS_METHOD (decoding, marker);
6395 LSTREAM_HAS_METHOD (encoding, reader);
6396 LSTREAM_HAS_METHOD (encoding, writer);
6397 LSTREAM_HAS_METHOD (encoding, rewinder);
6398 LSTREAM_HAS_METHOD (encoding, seekable_p);
6399 LSTREAM_HAS_METHOD (encoding, flusher);
6400 LSTREAM_HAS_METHOD (encoding, closer);
6401 LSTREAM_HAS_METHOD (encoding, marker);
6405 vars_of_file_coding (void)
6409 fcd = xnew (struct file_coding_dump);
6410 dump_add_root_struct_ptr (&fcd, &fcd_description);
6412 /* Initialize to something reasonable ... */
6413 for (i = 0; i < CODING_CATEGORY_LAST; i++)
6415 fcd->coding_category_system[i] = Qnil;
6416 fcd->coding_category_by_priority[i] = i;
6419 Fprovide (intern ("file-coding"));
6421 DEFVAR_LISP ("keyboard-coding-system", &Vkeyboard_coding_system /*
6422 Coding system used for TTY keyboard input.
6423 Not used under a windowing system.
6425 Vkeyboard_coding_system = Qnil;
6427 DEFVAR_LISP ("terminal-coding-system", &Vterminal_coding_system /*
6428 Coding system used for TTY display output.
6429 Not used under a windowing system.
6431 Vterminal_coding_system = Qnil;
6433 DEFVAR_LISP ("coding-system-for-read", &Vcoding_system_for_read /*
6434 Overriding coding system used when reading from a file or process.
6435 You should bind this variable with `let', but do not set it globally.
6436 If this is non-nil, it specifies the coding system that will be used
6437 to decode input on read operations, such as from a file or process.
6438 It overrides `buffer-file-coding-system-for-read',
6439 `insert-file-contents-pre-hook', etc. Use those variables instead of
6440 this one for permanent changes to the environment. */ );
6441 Vcoding_system_for_read = Qnil;
6443 DEFVAR_LISP ("coding-system-for-write",
6444 &Vcoding_system_for_write /*
6445 Overriding coding system used when writing to a file or process.
6446 You should bind this variable with `let', but do not set it globally.
6447 If this is non-nil, it specifies the coding system that will be used
6448 to encode output for write operations, such as to a file or process.
6449 It overrides `buffer-file-coding-system', `write-region-pre-hook', etc.
6450 Use those variables instead of this one for permanent changes to the
6452 Vcoding_system_for_write = Qnil;
6454 DEFVAR_LISP ("file-name-coding-system", &Vfile_name_coding_system /*
6455 Coding system used to convert pathnames when accessing files.
6457 Vfile_name_coding_system = Qnil;
6459 DEFVAR_LISP ("coded-charset-entity-reference-alist",
6460 &Vcoded_charset_entity_reference_alist /*
6461 Alist of coded-charset vs corresponding entity-reference.
6462 Each element looks like (CCS PREFIX CODE-COLUMNS CODE-TYPE).
6463 CCS is coded-charset.
6464 CODE-COLUMNS is columns of code-point of entity-reference.
6465 CODE-TYPE is format type of code-point of entity-reference.
6466 `d' means decimal value and `x' means hexadecimal value.
6468 Vcoded_charset_entity_reference_alist = Qnil;
6470 DEFVAR_BOOL ("enable-multibyte-characters", &enable_multibyte_characters /*
6471 Non-nil means the buffer contents are regarded as multi-byte form
6472 of characters, not a binary code. This affects the display, file I/O,
6473 and behaviors of various editing commands.
6475 Setting this to nil does not do anything.
6477 enable_multibyte_characters = 1;
6481 complex_vars_of_file_coding (void)
6483 staticpro (&Vcoding_system_hash_table);
6484 Vcoding_system_hash_table =
6485 make_lisp_hash_table (50, HASH_TABLE_NON_WEAK, HASH_TABLE_EQ);
6487 the_codesys_prop_dynarr = Dynarr_new (codesys_prop);
6488 dump_add_root_struct_ptr (&the_codesys_prop_dynarr, &codesys_prop_dynarr_description);
6490 #define DEFINE_CODESYS_PROP(Prop_Type, Sym) do \
6492 struct codesys_prop csp; \
6494 csp.prop_type = (Prop_Type); \
6495 Dynarr_add (the_codesys_prop_dynarr, csp); \
6498 DEFINE_CODESYS_PROP (CODESYS_PROP_ALL_OK, Qmnemonic);
6499 DEFINE_CODESYS_PROP (CODESYS_PROP_ALL_OK, Qeol_type);
6500 DEFINE_CODESYS_PROP (CODESYS_PROP_ALL_OK, Qeol_cr);
6501 DEFINE_CODESYS_PROP (CODESYS_PROP_ALL_OK, Qeol_crlf);
6502 DEFINE_CODESYS_PROP (CODESYS_PROP_ALL_OK, Qeol_lf);
6503 DEFINE_CODESYS_PROP (CODESYS_PROP_ALL_OK, Qpost_read_conversion);
6504 DEFINE_CODESYS_PROP (CODESYS_PROP_ALL_OK, Qpre_write_conversion);
6506 DEFINE_CODESYS_PROP (CODESYS_PROP_ISO2022, Qcharset_g0);
6507 DEFINE_CODESYS_PROP (CODESYS_PROP_ISO2022, Qcharset_g1);
6508 DEFINE_CODESYS_PROP (CODESYS_PROP_ISO2022, Qcharset_g2);
6509 DEFINE_CODESYS_PROP (CODESYS_PROP_ISO2022, Qcharset_g3);
6510 DEFINE_CODESYS_PROP (CODESYS_PROP_ISO2022, Qforce_g0_on_output);
6511 DEFINE_CODESYS_PROP (CODESYS_PROP_ISO2022, Qforce_g1_on_output);
6512 DEFINE_CODESYS_PROP (CODESYS_PROP_ISO2022, Qforce_g2_on_output);
6513 DEFINE_CODESYS_PROP (CODESYS_PROP_ISO2022, Qforce_g3_on_output);
6514 DEFINE_CODESYS_PROP (CODESYS_PROP_ISO2022, Qshort);
6515 DEFINE_CODESYS_PROP (CODESYS_PROP_ISO2022, Qno_ascii_eol);
6516 DEFINE_CODESYS_PROP (CODESYS_PROP_ISO2022, Qno_ascii_cntl);
6517 DEFINE_CODESYS_PROP (CODESYS_PROP_ISO2022, Qseven);
6518 DEFINE_CODESYS_PROP (CODESYS_PROP_ISO2022, Qlock_shift);
6519 DEFINE_CODESYS_PROP (CODESYS_PROP_ISO2022, Qno_iso6429);
6520 DEFINE_CODESYS_PROP (CODESYS_PROP_ISO2022, Qescape_quoted);
6521 DEFINE_CODESYS_PROP (CODESYS_PROP_ISO2022, Qinput_charset_conversion);
6522 DEFINE_CODESYS_PROP (CODESYS_PROP_ISO2022, Qoutput_charset_conversion);
6524 DEFINE_CODESYS_PROP (CODESYS_PROP_CCL, Qencode);
6525 DEFINE_CODESYS_PROP (CODESYS_PROP_CCL, Qdecode);
6527 DEFINE_CODESYS_PROP (CODESYS_PROP_ALL_OK, Qdisable_composition);
6528 DEFINE_CODESYS_PROP (CODESYS_PROP_ALL_OK, Quse_entity_reference);
6531 /* Need to create this here or we're really screwed. */
6533 (Qraw_text, Qno_conversion,
6534 build_string ("Raw text, which means it converts only line-break-codes."),
6535 list2 (Qmnemonic, build_string ("Raw")));
6538 (Qbinary, Qno_conversion,
6539 build_string ("Binary, which means it does not convert anything."),
6540 list4 (Qeol_type, Qlf,
6541 Qmnemonic, build_string ("Binary")));
6547 ("Coding-system of UTF-8 with Multiple Coded-character-Sets extension."),
6548 list2 (Qmnemonic, build_string ("MTF8")));
6551 Fdefine_coding_system_alias (Qno_conversion, Qraw_text);
6553 Fdefine_coding_system_alias (Qfile_name, Qbinary);
6555 Fdefine_coding_system_alias (Qterminal, Qbinary);
6556 Fdefine_coding_system_alias (Qkeyboard, Qbinary);
6558 /* Need this for bootstrapping */
6559 fcd->coding_category_system[CODING_CATEGORY_NO_CONVERSION] =
6560 Fget_coding_system (Qraw_text);
6563 fcd->coding_category_system[CODING_CATEGORY_UTF8]
6564 = Fget_coding_system (Qutf_8_mcs);
6567 #if defined(MULE) && !defined(UTF2000)
6571 for (i = 0; i < countof (fcd->ucs_to_mule_table); i++)
6572 fcd->ucs_to_mule_table[i] = Qnil;
6574 staticpro (&mule_to_ucs_table);
6575 mule_to_ucs_table = Fmake_char_table(Qgeneric);
6576 #endif /* defined(MULE) && !defined(UTF2000) */