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[emacs.git] / src / coding.c
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1 /* Coding system handler (conversion, detection, etc).
2 Copyright (C) 2001-2016 Free Software Foundation, Inc.
3 Copyright (C) 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003, 2004,
4 2005, 2006, 2007, 2008, 2009, 2010, 2011
5 National Institute of Advanced Industrial Science and Technology (AIST)
6 Registration Number H14PRO021
7 Copyright (C) 2003
8 National Institute of Advanced Industrial Science and Technology (AIST)
9 Registration Number H13PRO009
11 This file is part of GNU Emacs.
13 GNU Emacs is free software: you can redistribute it and/or modify
14 it under the terms of the GNU General Public License as published by
15 the Free Software Foundation, either version 3 of the License, or (at
16 your option) any later version.
18 GNU Emacs is distributed in the hope that it will be useful,
19 but WITHOUT ANY WARRANTY; without even the implied warranty of
20 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
21 GNU General Public License for more details.
23 You should have received a copy of the GNU General Public License
24 along with GNU Emacs. If not, see <http://www.gnu.org/licenses/>. */
26 /*** TABLE OF CONTENTS ***
28 0. General comments
29 1. Preamble
30 2. Emacs' internal format (emacs-utf-8) handlers
31 3. UTF-8 handlers
32 4. UTF-16 handlers
33 5. Charset-base coding systems handlers
34 6. emacs-mule (old Emacs' internal format) handlers
35 7. ISO2022 handlers
36 8. Shift-JIS and BIG5 handlers
37 9. CCL handlers
38 10. C library functions
39 11. Emacs Lisp library functions
40 12. Postamble
44 /*** 0. General comments ***
47 CODING SYSTEM
49 A coding system is an object for an encoding mechanism that contains
50 information about how to convert byte sequences to character
51 sequences and vice versa. When we say "decode", it means converting
52 a byte sequence of a specific coding system into a character
53 sequence that is represented by Emacs' internal coding system
54 `emacs-utf-8', and when we say "encode", it means converting a
55 character sequence of emacs-utf-8 to a byte sequence of a specific
56 coding system.
58 In Emacs Lisp, a coding system is represented by a Lisp symbol. On
59 the C level, a coding system is represented by a vector of attributes
60 stored in the hash table Vcharset_hash_table. The conversion from
61 coding system symbol to attributes vector is done by looking up
62 Vcharset_hash_table by the symbol.
64 Coding systems are classified into the following types depending on
65 the encoding mechanism. Here's a brief description of the types.
67 o UTF-8
69 o UTF-16
71 o Charset-base coding system
73 A coding system defined by one or more (coded) character sets.
74 Decoding and encoding are done by a code converter defined for each
75 character set.
77 o Old Emacs internal format (emacs-mule)
79 The coding system adopted by old versions of Emacs (20 and 21).
81 o ISO2022-base coding system
83 The most famous coding system for multiple character sets. X's
84 Compound Text, various EUCs (Extended Unix Code), and coding systems
85 used in the Internet communication such as ISO-2022-JP are all
86 variants of ISO2022.
88 o SJIS (or Shift-JIS or MS-Kanji-Code)
90 A coding system to encode character sets: ASCII, JISX0201, and
91 JISX0208. Widely used for PC's in Japan. Details are described in
92 section 8.
94 o BIG5
96 A coding system to encode character sets: ASCII and Big5. Widely
97 used for Chinese (mainly in Taiwan and Hong Kong). Details are
98 described in section 8. In this file, when we write "big5" (all
99 lowercase), we mean the coding system, and when we write "Big5"
100 (capitalized), we mean the character set.
102 o CCL
104 If a user wants to decode/encode text encoded in a coding system
105 not listed above, he can supply a decoder and an encoder for it in
106 CCL (Code Conversion Language) programs. Emacs executes the CCL
107 program while decoding/encoding.
109 o Raw-text
111 A coding system for text containing raw eight-bit data. Emacs
112 treats each byte of source text as a character (except for
113 end-of-line conversion).
115 o No-conversion
117 Like raw text, but don't do end-of-line conversion.
120 END-OF-LINE FORMAT
122 How text end-of-line is encoded depends on operating system. For
123 instance, Unix's format is just one byte of LF (line-feed) code,
124 whereas DOS's format is two-byte sequence of `carriage-return' and
125 `line-feed' codes. MacOS's format is usually one byte of
126 `carriage-return'.
128 Since text character encoding and end-of-line encoding are
129 independent, any coding system described above can take any format
130 of end-of-line (except for no-conversion).
132 STRUCT CODING_SYSTEM
134 Before using a coding system for code conversion (i.e. decoding and
135 encoding), we setup a structure of type `struct coding_system'.
136 This structure keeps various information about a specific code
137 conversion (e.g. the location of source and destination data).
141 /* COMMON MACROS */
144 /*** GENERAL NOTES on `detect_coding_XXX ()' functions ***
146 These functions check if a byte sequence specified as a source in
147 CODING conforms to the format of XXX, and update the members of
148 DETECT_INFO.
150 Return true if the byte sequence conforms to XXX.
152 Below is the template of these functions. */
154 #if 0
155 static bool
156 detect_coding_XXX (struct coding_system *coding,
157 struct coding_detection_info *detect_info)
159 const unsigned char *src = coding->source;
160 const unsigned char *src_end = coding->source + coding->src_bytes;
161 bool multibytep = coding->src_multibyte;
162 ptrdiff_t consumed_chars = 0;
163 int found = 0;
164 ...;
166 while (1)
168 /* Get one byte from the source. If the source is exhausted, jump
169 to no_more_source:. */
170 ONE_MORE_BYTE (c);
172 if (! __C_conforms_to_XXX___ (c))
173 break;
174 if (! __C_strongly_suggests_XXX__ (c))
175 found = CATEGORY_MASK_XXX;
177 /* The byte sequence is invalid for XXX. */
178 detect_info->rejected |= CATEGORY_MASK_XXX;
179 return 0;
181 no_more_source:
182 /* The source exhausted successfully. */
183 detect_info->found |= found;
184 return 1;
186 #endif
188 /*** GENERAL NOTES on `decode_coding_XXX ()' functions ***
190 These functions decode a byte sequence specified as a source by
191 CODING. The resulting multibyte text goes to a place pointed to by
192 CODING->charbuf, the length of which should not exceed
193 CODING->charbuf_size;
195 These functions set the information of original and decoded texts in
196 CODING->consumed, CODING->consumed_char, and CODING->charbuf_used.
197 They also set CODING->result to one of CODING_RESULT_XXX indicating
198 how the decoding is finished.
200 Below is the template of these functions. */
202 #if 0
203 static void
204 decode_coding_XXXX (struct coding_system *coding)
206 const unsigned char *src = coding->source + coding->consumed;
207 const unsigned char *src_end = coding->source + coding->src_bytes;
208 /* SRC_BASE remembers the start position in source in each loop.
209 The loop will be exited when there's not enough source code, or
210 when there's no room in CHARBUF for a decoded character. */
211 const unsigned char *src_base;
212 /* A buffer to produce decoded characters. */
213 int *charbuf = coding->charbuf + coding->charbuf_used;
214 int *charbuf_end = coding->charbuf + coding->charbuf_size;
215 bool multibytep = coding->src_multibyte;
217 while (1)
219 src_base = src;
220 if (charbuf < charbuf_end)
221 /* No more room to produce a decoded character. */
222 break;
223 ONE_MORE_BYTE (c);
224 /* Decode it. */
227 no_more_source:
228 if (src_base < src_end
229 && coding->mode & CODING_MODE_LAST_BLOCK)
230 /* If the source ends by partial bytes to construct a character,
231 treat them as eight-bit raw data. */
232 while (src_base < src_end && charbuf < charbuf_end)
233 *charbuf++ = *src_base++;
234 /* Remember how many bytes and characters we consumed. If the
235 source is multibyte, the bytes and chars are not identical. */
236 coding->consumed = coding->consumed_char = src_base - coding->source;
237 /* Remember how many characters we produced. */
238 coding->charbuf_used = charbuf - coding->charbuf;
240 #endif
242 /*** GENERAL NOTES on `encode_coding_XXX ()' functions ***
244 These functions encode SRC_BYTES length text at SOURCE of Emacs'
245 internal multibyte format by CODING. The resulting byte sequence
246 goes to a place pointed to by DESTINATION, the length of which
247 should not exceed DST_BYTES.
249 These functions set the information of original and encoded texts in
250 the members produced, produced_char, consumed, and consumed_char of
251 the structure *CODING. They also set the member result to one of
252 CODING_RESULT_XXX indicating how the encoding finished.
254 DST_BYTES zero means that source area and destination area are
255 overlapped, which means that we can produce a encoded text until it
256 reaches at the head of not-yet-encoded source text.
258 Below is a template of these functions. */
259 #if 0
260 static void
261 encode_coding_XXX (struct coding_system *coding)
263 bool multibytep = coding->dst_multibyte;
264 int *charbuf = coding->charbuf;
265 int *charbuf_end = charbuf->charbuf + coding->charbuf_used;
266 unsigned char *dst = coding->destination + coding->produced;
267 unsigned char *dst_end = coding->destination + coding->dst_bytes;
268 unsigned char *adjusted_dst_end = dst_end - _MAX_BYTES_PRODUCED_IN_LOOP_;
269 ptrdiff_t produced_chars = 0;
271 for (; charbuf < charbuf_end && dst < adjusted_dst_end; charbuf++)
273 int c = *charbuf;
274 /* Encode C into DST, and increment DST. */
276 label_no_more_destination:
277 /* How many chars and bytes we produced. */
278 coding->produced_char += produced_chars;
279 coding->produced = dst - coding->destination;
281 #endif
284 /*** 1. Preamble ***/
286 #include <config.h>
287 #include <stdio.h>
289 #ifdef HAVE_WCHAR_H
290 #include <wchar.h>
291 #endif /* HAVE_WCHAR_H */
293 #include "lisp.h"
294 #include "character.h"
295 #include "buffer.h"
296 #include "charset.h"
297 #include "ccl.h"
298 #include "composite.h"
299 #include "coding.h"
300 #include "termhooks.h"
302 Lisp_Object Vcoding_system_hash_table;
304 /* Format of end-of-line decided by system. This is Qunix on
305 Unix and Mac, Qdos on DOS/Windows.
306 This has an effect only for external encoding (i.e. for output to
307 file and process), not for in-buffer or Lisp string encoding. */
308 static Lisp_Object system_eol_type;
310 #ifdef emacs
312 /* Coding-systems are handed between Emacs Lisp programs and C internal
313 routines by the following three variables. */
314 /* Coding system to be used to encode text for terminal display when
315 terminal coding system is nil. */
316 struct coding_system safe_terminal_coding;
318 #endif /* emacs */
320 /* Two special coding systems. */
321 static Lisp_Object Vsjis_coding_system;
322 static Lisp_Object Vbig5_coding_system;
324 /* ISO2022 section */
326 #define CODING_ISO_INITIAL(coding, reg) \
327 (XINT (AREF (AREF (CODING_ID_ATTRS ((coding)->id), \
328 coding_attr_iso_initial), \
329 reg)))
332 #define CODING_ISO_REQUEST(coding, charset_id) \
333 (((charset_id) <= (coding)->max_charset_id \
334 ? ((coding)->safe_charsets[charset_id] != 255 \
335 ? (coding)->safe_charsets[charset_id] \
336 : -1) \
337 : -1))
340 #define CODING_ISO_FLAGS(coding) \
341 ((coding)->spec.iso_2022.flags)
342 #define CODING_ISO_DESIGNATION(coding, reg) \
343 ((coding)->spec.iso_2022.current_designation[reg])
344 #define CODING_ISO_INVOCATION(coding, plane) \
345 ((coding)->spec.iso_2022.current_invocation[plane])
346 #define CODING_ISO_SINGLE_SHIFTING(coding) \
347 ((coding)->spec.iso_2022.single_shifting)
348 #define CODING_ISO_BOL(coding) \
349 ((coding)->spec.iso_2022.bol)
350 #define CODING_ISO_INVOKED_CHARSET(coding, plane) \
351 (CODING_ISO_INVOCATION (coding, plane) < 0 ? -1 \
352 : CODING_ISO_DESIGNATION (coding, CODING_ISO_INVOCATION (coding, plane)))
353 #define CODING_ISO_CMP_STATUS(coding) \
354 (&(coding)->spec.iso_2022.cmp_status)
355 #define CODING_ISO_EXTSEGMENT_LEN(coding) \
356 ((coding)->spec.iso_2022.ctext_extended_segment_len)
357 #define CODING_ISO_EMBEDDED_UTF_8(coding) \
358 ((coding)->spec.iso_2022.embedded_utf_8)
360 /* Control characters of ISO2022. */
361 /* code */ /* function */
362 #define ISO_CODE_SO 0x0E /* shift-out */
363 #define ISO_CODE_SI 0x0F /* shift-in */
364 #define ISO_CODE_SS2_7 0x19 /* single-shift-2 for 7-bit code */
365 #define ISO_CODE_ESC 0x1B /* escape */
366 #define ISO_CODE_SS2 0x8E /* single-shift-2 */
367 #define ISO_CODE_SS3 0x8F /* single-shift-3 */
368 #define ISO_CODE_CSI 0x9B /* control-sequence-introducer */
370 /* All code (1-byte) of ISO2022 is classified into one of the
371 followings. */
372 enum iso_code_class_type
374 ISO_control_0, /* Control codes in the range
375 0x00..0x1F and 0x7F, except for the
376 following 5 codes. */
377 ISO_shift_out, /* ISO_CODE_SO (0x0E) */
378 ISO_shift_in, /* ISO_CODE_SI (0x0F) */
379 ISO_single_shift_2_7, /* ISO_CODE_SS2_7 (0x19) */
380 ISO_escape, /* ISO_CODE_ESC (0x1B) */
381 ISO_control_1, /* Control codes in the range
382 0x80..0x9F, except for the
383 following 3 codes. */
384 ISO_single_shift_2, /* ISO_CODE_SS2 (0x8E) */
385 ISO_single_shift_3, /* ISO_CODE_SS3 (0x8F) */
386 ISO_control_sequence_introducer, /* ISO_CODE_CSI (0x9B) */
387 ISO_0x20_or_0x7F, /* Codes of the values 0x20 or 0x7F. */
388 ISO_graphic_plane_0, /* Graphic codes in the range 0x21..0x7E. */
389 ISO_0xA0_or_0xFF, /* Codes of the values 0xA0 or 0xFF. */
390 ISO_graphic_plane_1 /* Graphic codes in the range 0xA1..0xFE. */
393 /** The macros CODING_ISO_FLAG_XXX defines a flag bit of the
394 `iso-flags' attribute of an iso2022 coding system. */
396 /* If set, produce long-form designation sequence (e.g. ESC $ ( A)
397 instead of the correct short-form sequence (e.g. ESC $ A). */
398 #define CODING_ISO_FLAG_LONG_FORM 0x0001
400 /* If set, reset graphic planes and registers at end-of-line to the
401 initial state. */
402 #define CODING_ISO_FLAG_RESET_AT_EOL 0x0002
404 /* If set, reset graphic planes and registers before any control
405 characters to the initial state. */
406 #define CODING_ISO_FLAG_RESET_AT_CNTL 0x0004
408 /* If set, encode by 7-bit environment. */
409 #define CODING_ISO_FLAG_SEVEN_BITS 0x0008
411 /* If set, use locking-shift function. */
412 #define CODING_ISO_FLAG_LOCKING_SHIFT 0x0010
414 /* If set, use single-shift function. Overwrite
415 CODING_ISO_FLAG_LOCKING_SHIFT. */
416 #define CODING_ISO_FLAG_SINGLE_SHIFT 0x0020
418 /* If set, use designation escape sequence. */
419 #define CODING_ISO_FLAG_DESIGNATION 0x0040
421 /* If set, produce revision number sequence. */
422 #define CODING_ISO_FLAG_REVISION 0x0080
424 /* If set, produce ISO6429's direction specifying sequence. */
425 #define CODING_ISO_FLAG_DIRECTION 0x0100
427 /* If set, assume designation states are reset at beginning of line on
428 output. */
429 #define CODING_ISO_FLAG_INIT_AT_BOL 0x0200
431 /* If set, designation sequence should be placed at beginning of line
432 on output. */
433 #define CODING_ISO_FLAG_DESIGNATE_AT_BOL 0x0400
435 /* If set, do not encode unsafe characters on output. */
436 #define CODING_ISO_FLAG_SAFE 0x0800
438 /* If set, extra latin codes (128..159) are accepted as a valid code
439 on input. */
440 #define CODING_ISO_FLAG_LATIN_EXTRA 0x1000
442 #define CODING_ISO_FLAG_COMPOSITION 0x2000
444 /* #define CODING_ISO_FLAG_EUC_TW_SHIFT 0x4000 */
446 #define CODING_ISO_FLAG_USE_ROMAN 0x8000
448 #define CODING_ISO_FLAG_USE_OLDJIS 0x10000
450 #define CODING_ISO_FLAG_LEVEL_4 0x20000
452 #define CODING_ISO_FLAG_FULL_SUPPORT 0x100000
454 /* A character to be produced on output if encoding of the original
455 character is prohibited by CODING_ISO_FLAG_SAFE. */
456 #define CODING_INHIBIT_CHARACTER_SUBSTITUTION '?'
458 /* UTF-8 section */
459 #define CODING_UTF_8_BOM(coding) \
460 ((coding)->spec.utf_8_bom)
462 /* UTF-16 section */
463 #define CODING_UTF_16_BOM(coding) \
464 ((coding)->spec.utf_16.bom)
466 #define CODING_UTF_16_ENDIAN(coding) \
467 ((coding)->spec.utf_16.endian)
469 #define CODING_UTF_16_SURROGATE(coding) \
470 ((coding)->spec.utf_16.surrogate)
473 /* CCL section */
474 #define CODING_CCL_DECODER(coding) \
475 AREF (CODING_ID_ATTRS ((coding)->id), coding_attr_ccl_decoder)
476 #define CODING_CCL_ENCODER(coding) \
477 AREF (CODING_ID_ATTRS ((coding)->id), coding_attr_ccl_encoder)
478 #define CODING_CCL_VALIDS(coding) \
479 (SDATA (AREF (CODING_ID_ATTRS ((coding)->id), coding_attr_ccl_valids)))
481 /* Index for each coding category in `coding_categories' */
483 enum coding_category
485 coding_category_iso_7,
486 coding_category_iso_7_tight,
487 coding_category_iso_8_1,
488 coding_category_iso_8_2,
489 coding_category_iso_7_else,
490 coding_category_iso_8_else,
491 coding_category_utf_8_auto,
492 coding_category_utf_8_nosig,
493 coding_category_utf_8_sig,
494 coding_category_utf_16_auto,
495 coding_category_utf_16_be,
496 coding_category_utf_16_le,
497 coding_category_utf_16_be_nosig,
498 coding_category_utf_16_le_nosig,
499 coding_category_charset,
500 coding_category_sjis,
501 coding_category_big5,
502 coding_category_ccl,
503 coding_category_emacs_mule,
504 /* All above are targets of code detection. */
505 coding_category_raw_text,
506 coding_category_undecided,
507 coding_category_max
510 /* Definitions of flag bits used in detect_coding_XXXX. */
511 #define CATEGORY_MASK_ISO_7 (1 << coding_category_iso_7)
512 #define CATEGORY_MASK_ISO_7_TIGHT (1 << coding_category_iso_7_tight)
513 #define CATEGORY_MASK_ISO_8_1 (1 << coding_category_iso_8_1)
514 #define CATEGORY_MASK_ISO_8_2 (1 << coding_category_iso_8_2)
515 #define CATEGORY_MASK_ISO_7_ELSE (1 << coding_category_iso_7_else)
516 #define CATEGORY_MASK_ISO_8_ELSE (1 << coding_category_iso_8_else)
517 #define CATEGORY_MASK_UTF_8_AUTO (1 << coding_category_utf_8_auto)
518 #define CATEGORY_MASK_UTF_8_NOSIG (1 << coding_category_utf_8_nosig)
519 #define CATEGORY_MASK_UTF_8_SIG (1 << coding_category_utf_8_sig)
520 #define CATEGORY_MASK_UTF_16_AUTO (1 << coding_category_utf_16_auto)
521 #define CATEGORY_MASK_UTF_16_BE (1 << coding_category_utf_16_be)
522 #define CATEGORY_MASK_UTF_16_LE (1 << coding_category_utf_16_le)
523 #define CATEGORY_MASK_UTF_16_BE_NOSIG (1 << coding_category_utf_16_be_nosig)
524 #define CATEGORY_MASK_UTF_16_LE_NOSIG (1 << coding_category_utf_16_le_nosig)
525 #define CATEGORY_MASK_CHARSET (1 << coding_category_charset)
526 #define CATEGORY_MASK_SJIS (1 << coding_category_sjis)
527 #define CATEGORY_MASK_BIG5 (1 << coding_category_big5)
528 #define CATEGORY_MASK_CCL (1 << coding_category_ccl)
529 #define CATEGORY_MASK_EMACS_MULE (1 << coding_category_emacs_mule)
530 #define CATEGORY_MASK_RAW_TEXT (1 << coding_category_raw_text)
532 /* This value is returned if detect_coding_mask () find nothing other
533 than ASCII characters. */
534 #define CATEGORY_MASK_ANY \
535 (CATEGORY_MASK_ISO_7 \
536 | CATEGORY_MASK_ISO_7_TIGHT \
537 | CATEGORY_MASK_ISO_8_1 \
538 | CATEGORY_MASK_ISO_8_2 \
539 | CATEGORY_MASK_ISO_7_ELSE \
540 | CATEGORY_MASK_ISO_8_ELSE \
541 | CATEGORY_MASK_UTF_8_AUTO \
542 | CATEGORY_MASK_UTF_8_NOSIG \
543 | CATEGORY_MASK_UTF_8_SIG \
544 | CATEGORY_MASK_UTF_16_AUTO \
545 | CATEGORY_MASK_UTF_16_BE \
546 | CATEGORY_MASK_UTF_16_LE \
547 | CATEGORY_MASK_UTF_16_BE_NOSIG \
548 | CATEGORY_MASK_UTF_16_LE_NOSIG \
549 | CATEGORY_MASK_CHARSET \
550 | CATEGORY_MASK_SJIS \
551 | CATEGORY_MASK_BIG5 \
552 | CATEGORY_MASK_CCL \
553 | CATEGORY_MASK_EMACS_MULE)
556 #define CATEGORY_MASK_ISO_7BIT \
557 (CATEGORY_MASK_ISO_7 | CATEGORY_MASK_ISO_7_TIGHT)
559 #define CATEGORY_MASK_ISO_8BIT \
560 (CATEGORY_MASK_ISO_8_1 | CATEGORY_MASK_ISO_8_2)
562 #define CATEGORY_MASK_ISO_ELSE \
563 (CATEGORY_MASK_ISO_7_ELSE | CATEGORY_MASK_ISO_8_ELSE)
565 #define CATEGORY_MASK_ISO_ESCAPE \
566 (CATEGORY_MASK_ISO_7 \
567 | CATEGORY_MASK_ISO_7_TIGHT \
568 | CATEGORY_MASK_ISO_7_ELSE \
569 | CATEGORY_MASK_ISO_8_ELSE)
571 #define CATEGORY_MASK_ISO \
572 ( CATEGORY_MASK_ISO_7BIT \
573 | CATEGORY_MASK_ISO_8BIT \
574 | CATEGORY_MASK_ISO_ELSE)
576 #define CATEGORY_MASK_UTF_16 \
577 (CATEGORY_MASK_UTF_16_AUTO \
578 | CATEGORY_MASK_UTF_16_BE \
579 | CATEGORY_MASK_UTF_16_LE \
580 | CATEGORY_MASK_UTF_16_BE_NOSIG \
581 | CATEGORY_MASK_UTF_16_LE_NOSIG)
583 #define CATEGORY_MASK_UTF_8 \
584 (CATEGORY_MASK_UTF_8_AUTO \
585 | CATEGORY_MASK_UTF_8_NOSIG \
586 | CATEGORY_MASK_UTF_8_SIG)
588 /* Table of coding categories (Lisp symbols). This variable is for
589 internal use only. */
590 static Lisp_Object Vcoding_category_table;
592 /* Table of coding-categories ordered by priority. */
593 static enum coding_category coding_priorities[coding_category_max];
595 /* Nth element is a coding context for the coding system bound to the
596 Nth coding category. */
597 static struct coding_system coding_categories[coding_category_max];
599 /* Encode a flag that can be nil, something else, or t as -1, 0, 1. */
601 static int
602 encode_inhibit_flag (Lisp_Object flag)
604 return NILP (flag) ? -1 : EQ (flag, Qt);
607 /* True if the value of ENCODED_FLAG says a flag should be treated as set.
608 1 means yes, -1 means no, 0 means ask the user variable VAR. */
610 static bool
611 inhibit_flag (int encoded_flag, bool var)
613 return 0 < encoded_flag + var;
616 #define CODING_GET_INFO(coding, attrs, charset_list) \
617 do { \
618 (attrs) = CODING_ID_ATTRS ((coding)->id); \
619 (charset_list) = CODING_ATTR_CHARSET_LIST (attrs); \
620 } while (0)
622 static void
623 CHECK_NATNUM_CAR (Lisp_Object x)
625 Lisp_Object tmp = XCAR (x);
626 CHECK_NATNUM (tmp);
627 XSETCAR (x, tmp);
630 static void
631 CHECK_NATNUM_CDR (Lisp_Object x)
633 Lisp_Object tmp = XCDR (x);
634 CHECK_NATNUM (tmp);
635 XSETCDR (x, tmp);
638 /* True if CODING's destination can be grown. */
640 static bool
641 growable_destination (struct coding_system *coding)
643 return STRINGP (coding->dst_object) || BUFFERP (coding->dst_object);
647 /* Safely get one byte from the source text pointed by SRC which ends
648 at SRC_END, and set C to that byte. If there are not enough bytes
649 in the source, it jumps to 'no_more_source'. If MULTIBYTEP,
650 and a multibyte character is found at SRC, set C to the
651 negative value of the character code. The caller should declare
652 and set these variables appropriately in advance:
653 src, src_end, multibytep */
655 #define ONE_MORE_BYTE(c) \
656 do { \
657 if (src == src_end) \
659 if (src_base < src) \
660 record_conversion_result \
661 (coding, CODING_RESULT_INSUFFICIENT_SRC); \
662 goto no_more_source; \
664 c = *src++; \
665 if (multibytep && (c & 0x80)) \
667 if ((c & 0xFE) == 0xC0) \
668 c = ((c & 1) << 6) | *src++; \
669 else \
671 src--; \
672 c = - string_char (src, &src, NULL); \
673 record_conversion_result \
674 (coding, CODING_RESULT_INVALID_SRC); \
677 consumed_chars++; \
678 } while (0)
680 /* Safely get two bytes from the source text pointed by SRC which ends
681 at SRC_END, and set C1 and C2 to those bytes while skipping the
682 heading multibyte characters. If there are not enough bytes in the
683 source, it jumps to 'no_more_source'. If MULTIBYTEP and
684 a multibyte character is found for C2, set C2 to the negative value
685 of the character code. The caller should declare and set these
686 variables appropriately in advance:
687 src, src_end, multibytep
688 It is intended that this macro is used in detect_coding_utf_16. */
690 #define TWO_MORE_BYTES(c1, c2) \
691 do { \
692 do { \
693 if (src == src_end) \
694 goto no_more_source; \
695 c1 = *src++; \
696 if (multibytep && (c1 & 0x80)) \
698 if ((c1 & 0xFE) == 0xC0) \
699 c1 = ((c1 & 1) << 6) | *src++; \
700 else \
702 src += BYTES_BY_CHAR_HEAD (c1) - 1; \
703 c1 = -1; \
706 } while (c1 < 0); \
707 if (src == src_end) \
708 goto no_more_source; \
709 c2 = *src++; \
710 if (multibytep && (c2 & 0x80)) \
712 if ((c2 & 0xFE) == 0xC0) \
713 c2 = ((c2 & 1) << 6) | *src++; \
714 else \
715 c2 = -1; \
717 } while (0)
720 /* Store a byte C in the place pointed by DST and increment DST to the
721 next free point, and increment PRODUCED_CHARS. The caller should
722 assure that C is 0..127, and declare and set the variable `dst'
723 appropriately in advance.
727 #define EMIT_ONE_ASCII_BYTE(c) \
728 do { \
729 produced_chars++; \
730 *dst++ = (c); \
731 } while (0)
734 /* Like EMIT_ONE_ASCII_BYTE but store two bytes; C1 and C2. */
736 #define EMIT_TWO_ASCII_BYTES(c1, c2) \
737 do { \
738 produced_chars += 2; \
739 *dst++ = (c1), *dst++ = (c2); \
740 } while (0)
743 /* Store a byte C in the place pointed by DST and increment DST to the
744 next free point, and increment PRODUCED_CHARS. If MULTIBYTEP,
745 store in an appropriate multibyte form. The caller should
746 declare and set the variables `dst' and `multibytep' appropriately
747 in advance. */
749 #define EMIT_ONE_BYTE(c) \
750 do { \
751 produced_chars++; \
752 if (multibytep) \
754 unsigned ch = (c); \
755 if (ch >= 0x80) \
756 ch = BYTE8_TO_CHAR (ch); \
757 CHAR_STRING_ADVANCE (ch, dst); \
759 else \
760 *dst++ = (c); \
761 } while (0)
764 /* Like EMIT_ONE_BYTE, but emit two bytes; C1 and C2. */
766 #define EMIT_TWO_BYTES(c1, c2) \
767 do { \
768 produced_chars += 2; \
769 if (multibytep) \
771 unsigned ch; \
773 ch = (c1); \
774 if (ch >= 0x80) \
775 ch = BYTE8_TO_CHAR (ch); \
776 CHAR_STRING_ADVANCE (ch, dst); \
777 ch = (c2); \
778 if (ch >= 0x80) \
779 ch = BYTE8_TO_CHAR (ch); \
780 CHAR_STRING_ADVANCE (ch, dst); \
782 else \
784 *dst++ = (c1); \
785 *dst++ = (c2); \
787 } while (0)
790 #define EMIT_THREE_BYTES(c1, c2, c3) \
791 do { \
792 EMIT_ONE_BYTE (c1); \
793 EMIT_TWO_BYTES (c2, c3); \
794 } while (0)
797 #define EMIT_FOUR_BYTES(c1, c2, c3, c4) \
798 do { \
799 EMIT_TWO_BYTES (c1, c2); \
800 EMIT_TWO_BYTES (c3, c4); \
801 } while (0)
804 static void
805 record_conversion_result (struct coding_system *coding,
806 enum coding_result_code result)
808 coding->result = result;
809 switch (result)
811 case CODING_RESULT_INSUFFICIENT_SRC:
812 Vlast_code_conversion_error = Qinsufficient_source;
813 break;
814 case CODING_RESULT_INVALID_SRC:
815 Vlast_code_conversion_error = Qinvalid_source;
816 break;
817 case CODING_RESULT_INTERRUPT:
818 Vlast_code_conversion_error = Qinterrupted;
819 break;
820 case CODING_RESULT_INSUFFICIENT_DST:
821 /* Don't record this error in Vlast_code_conversion_error
822 because it happens just temporarily and is resolved when the
823 whole conversion is finished. */
824 break;
825 case CODING_RESULT_SUCCESS:
826 break;
827 default:
828 Vlast_code_conversion_error = intern ("Unknown error");
832 /* These wrapper macros are used to preserve validity of pointers into
833 buffer text across calls to decode_char, encode_char, etc, which
834 could cause relocation of buffers if it loads a charset map,
835 because loading a charset map allocates large structures. */
837 #define CODING_DECODE_CHAR(coding, src, src_base, src_end, charset, code, c) \
838 do { \
839 ptrdiff_t offset; \
841 charset_map_loaded = 0; \
842 c = DECODE_CHAR (charset, code); \
843 if (charset_map_loaded \
844 && (offset = coding_change_source (coding))) \
846 src += offset; \
847 src_base += offset; \
848 src_end += offset; \
850 } while (0)
852 #define CODING_ENCODE_CHAR(coding, dst, dst_end, charset, c, code) \
853 do { \
854 ptrdiff_t offset; \
856 charset_map_loaded = 0; \
857 code = ENCODE_CHAR (charset, c); \
858 if (charset_map_loaded \
859 && (offset = coding_change_destination (coding))) \
861 dst += offset; \
862 dst_end += offset; \
864 } while (0)
866 #define CODING_CHAR_CHARSET(coding, dst, dst_end, c, charset_list, code_return, charset) \
867 do { \
868 ptrdiff_t offset; \
870 charset_map_loaded = 0; \
871 charset = char_charset (c, charset_list, code_return); \
872 if (charset_map_loaded \
873 && (offset = coding_change_destination (coding))) \
875 dst += offset; \
876 dst_end += offset; \
878 } while (0)
880 #define CODING_CHAR_CHARSET_P(coding, dst, dst_end, c, charset, result) \
881 do { \
882 ptrdiff_t offset; \
884 charset_map_loaded = 0; \
885 result = CHAR_CHARSET_P (c, charset); \
886 if (charset_map_loaded \
887 && (offset = coding_change_destination (coding))) \
889 dst += offset; \
890 dst_end += offset; \
892 } while (0)
895 /* If there are at least BYTES length of room at dst, allocate memory
896 for coding->destination and update dst and dst_end. We don't have
897 to take care of coding->source which will be relocated. It is
898 handled by calling coding_set_source in encode_coding. */
900 #define ASSURE_DESTINATION(bytes) \
901 do { \
902 if (dst + (bytes) >= dst_end) \
904 ptrdiff_t more_bytes = charbuf_end - charbuf + (bytes); \
906 dst = alloc_destination (coding, more_bytes, dst); \
907 dst_end = coding->destination + coding->dst_bytes; \
909 } while (0)
912 /* Store multibyte form of the character C in P, and advance P to the
913 end of the multibyte form. This used to be like CHAR_STRING_ADVANCE
914 without ever calling MAYBE_UNIFY_CHAR, but nowadays we don't call
915 MAYBE_UNIFY_CHAR in CHAR_STRING_ADVANCE. */
917 #define CHAR_STRING_ADVANCE_NO_UNIFY(c, p) CHAR_STRING_ADVANCE(c, p)
919 /* Return the character code of character whose multibyte form is at
920 P, and advance P to the end of the multibyte form. This used to be
921 like STRING_CHAR_ADVANCE without ever calling MAYBE_UNIFY_CHAR, but
922 nowadays STRING_CHAR_ADVANCE doesn't call MAYBE_UNIFY_CHAR. */
924 #define STRING_CHAR_ADVANCE_NO_UNIFY(p) STRING_CHAR_ADVANCE(p)
926 /* Set coding->source from coding->src_object. */
928 static void
929 coding_set_source (struct coding_system *coding)
931 if (BUFFERP (coding->src_object))
933 struct buffer *buf = XBUFFER (coding->src_object);
935 if (coding->src_pos < 0)
936 coding->source = BUF_GAP_END_ADDR (buf) + coding->src_pos_byte;
937 else
938 coding->source = BUF_BYTE_ADDRESS (buf, coding->src_pos_byte);
940 else if (STRINGP (coding->src_object))
942 coding->source = SDATA (coding->src_object) + coding->src_pos_byte;
944 else
946 /* Otherwise, the source is C string and is never relocated
947 automatically. Thus we don't have to update anything. */
952 /* Set coding->source from coding->src_object, and return how many
953 bytes coding->source was changed. */
955 static ptrdiff_t
956 coding_change_source (struct coding_system *coding)
958 const unsigned char *orig = coding->source;
959 coding_set_source (coding);
960 return coding->source - orig;
964 /* Set coding->destination from coding->dst_object. */
966 static void
967 coding_set_destination (struct coding_system *coding)
969 if (BUFFERP (coding->dst_object))
971 if (BUFFERP (coding->src_object) && coding->src_pos < 0)
973 coding->destination = BEG_ADDR + coding->dst_pos_byte - BEG_BYTE;
974 coding->dst_bytes = (GAP_END_ADDR
975 - (coding->src_bytes - coding->consumed)
976 - coding->destination);
978 else
980 /* We are sure that coding->dst_pos_byte is before the gap
981 of the buffer. */
982 coding->destination = (BUF_BEG_ADDR (XBUFFER (coding->dst_object))
983 + coding->dst_pos_byte - BEG_BYTE);
984 coding->dst_bytes = (BUF_GAP_END_ADDR (XBUFFER (coding->dst_object))
985 - coding->destination);
988 else
990 /* Otherwise, the destination is C string and is never relocated
991 automatically. Thus we don't have to update anything. */
996 /* Set coding->destination from coding->dst_object, and return how
997 many bytes coding->destination was changed. */
999 static ptrdiff_t
1000 coding_change_destination (struct coding_system *coding)
1002 const unsigned char *orig = coding->destination;
1003 coding_set_destination (coding);
1004 return coding->destination - orig;
1008 static void
1009 coding_alloc_by_realloc (struct coding_system *coding, ptrdiff_t bytes)
1011 ptrdiff_t newbytes;
1012 if (INT_ADD_WRAPV (coding->dst_bytes, bytes, &newbytes)
1013 || SIZE_MAX < newbytes)
1014 string_overflow ();
1015 coding->destination = xrealloc (coding->destination, newbytes);
1016 coding->dst_bytes = newbytes;
1019 static void
1020 coding_alloc_by_making_gap (struct coding_system *coding,
1021 ptrdiff_t gap_head_used, ptrdiff_t bytes)
1023 if (EQ (coding->src_object, coding->dst_object))
1025 /* The gap may contain the produced data at the head and not-yet
1026 consumed data at the tail. To preserve those data, we at
1027 first make the gap size to zero, then increase the gap
1028 size. */
1029 ptrdiff_t add = GAP_SIZE;
1031 GPT += gap_head_used, GPT_BYTE += gap_head_used;
1032 GAP_SIZE = 0; ZV += add; Z += add; ZV_BYTE += add; Z_BYTE += add;
1033 make_gap (bytes);
1034 GAP_SIZE += add; ZV -= add; Z -= add; ZV_BYTE -= add; Z_BYTE -= add;
1035 GPT -= gap_head_used, GPT_BYTE -= gap_head_used;
1037 else
1038 make_gap_1 (XBUFFER (coding->dst_object), bytes);
1042 static unsigned char *
1043 alloc_destination (struct coding_system *coding, ptrdiff_t nbytes,
1044 unsigned char *dst)
1046 ptrdiff_t offset = dst - coding->destination;
1048 if (BUFFERP (coding->dst_object))
1050 struct buffer *buf = XBUFFER (coding->dst_object);
1052 coding_alloc_by_making_gap (coding, dst - BUF_GPT_ADDR (buf), nbytes);
1054 else
1055 coding_alloc_by_realloc (coding, nbytes);
1056 coding_set_destination (coding);
1057 dst = coding->destination + offset;
1058 return dst;
1061 /** Macros for annotations. */
1063 /* An annotation data is stored in the array coding->charbuf in this
1064 format:
1065 [ -LENGTH ANNOTATION_MASK NCHARS ... ]
1066 LENGTH is the number of elements in the annotation.
1067 ANNOTATION_MASK is one of CODING_ANNOTATE_XXX_MASK.
1068 NCHARS is the number of characters in the text annotated.
1070 The format of the following elements depend on ANNOTATION_MASK.
1072 In the case of CODING_ANNOTATE_COMPOSITION_MASK, these elements
1073 follows:
1074 ... NBYTES METHOD [ COMPOSITION-COMPONENTS ... ]
1076 NBYTES is the number of bytes specified in the header part of
1077 old-style emacs-mule encoding, or 0 for the other kind of
1078 composition.
1080 METHOD is one of enum composition_method.
1082 Optional COMPOSITION-COMPONENTS are characters and composition
1083 rules.
1085 In the case of CODING_ANNOTATE_CHARSET_MASK, one element CHARSET-ID
1086 follows.
1088 If ANNOTATION_MASK is 0, this annotation is just a space holder to
1089 recover from an invalid annotation, and should be skipped by
1090 produce_annotation. */
1092 /* Maximum length of the header of annotation data. */
1093 #define MAX_ANNOTATION_LENGTH 5
1095 #define ADD_ANNOTATION_DATA(buf, len, mask, nchars) \
1096 do { \
1097 *(buf)++ = -(len); \
1098 *(buf)++ = (mask); \
1099 *(buf)++ = (nchars); \
1100 coding->annotated = 1; \
1101 } while (0);
1103 #define ADD_COMPOSITION_DATA(buf, nchars, nbytes, method) \
1104 do { \
1105 ADD_ANNOTATION_DATA (buf, 5, CODING_ANNOTATE_COMPOSITION_MASK, nchars); \
1106 *buf++ = nbytes; \
1107 *buf++ = method; \
1108 } while (0)
1111 #define ADD_CHARSET_DATA(buf, nchars, id) \
1112 do { \
1113 ADD_ANNOTATION_DATA (buf, 4, CODING_ANNOTATE_CHARSET_MASK, nchars); \
1114 *buf++ = id; \
1115 } while (0)
1118 /* Bitmasks for coding->eol_seen. */
1120 #define EOL_SEEN_NONE 0
1121 #define EOL_SEEN_LF 1
1122 #define EOL_SEEN_CR 2
1123 #define EOL_SEEN_CRLF 4
1126 /*** 2. Emacs' internal format (emacs-utf-8) ***/
1131 /*** 3. UTF-8 ***/
1133 /* See the above "GENERAL NOTES on `detect_coding_XXX ()' functions".
1134 Return true if a text is encoded in UTF-8. */
1136 #define UTF_8_1_OCTET_P(c) ((c) < 0x80)
1137 #define UTF_8_EXTRA_OCTET_P(c) (((c) & 0xC0) == 0x80)
1138 #define UTF_8_2_OCTET_LEADING_P(c) (((c) & 0xE0) == 0xC0)
1139 #define UTF_8_3_OCTET_LEADING_P(c) (((c) & 0xF0) == 0xE0)
1140 #define UTF_8_4_OCTET_LEADING_P(c) (((c) & 0xF8) == 0xF0)
1141 #define UTF_8_5_OCTET_LEADING_P(c) (((c) & 0xFC) == 0xF8)
1143 #define UTF_8_BOM_1 0xEF
1144 #define UTF_8_BOM_2 0xBB
1145 #define UTF_8_BOM_3 0xBF
1147 /* Unlike the other detect_coding_XXX, this function counts the number
1148 of characters and checks the EOL format. */
1150 static bool
1151 detect_coding_utf_8 (struct coding_system *coding,
1152 struct coding_detection_info *detect_info)
1154 const unsigned char *src = coding->source, *src_base;
1155 const unsigned char *src_end = coding->source + coding->src_bytes;
1156 bool multibytep = coding->src_multibyte;
1157 ptrdiff_t consumed_chars = 0;
1158 bool bom_found = 0;
1159 ptrdiff_t nchars = coding->head_ascii;
1160 int eol_seen = coding->eol_seen;
1162 detect_info->checked |= CATEGORY_MASK_UTF_8;
1163 /* A coding system of this category is always ASCII compatible. */
1164 src += nchars;
1166 if (src == coding->source /* BOM should be at the head. */
1167 && src + 3 < src_end /* BOM is 3-byte long. */
1168 && src[0] == UTF_8_BOM_1
1169 && src[1] == UTF_8_BOM_2
1170 && src[2] == UTF_8_BOM_3)
1172 bom_found = 1;
1173 src += 3;
1174 nchars++;
1177 while (1)
1179 int c, c1, c2, c3, c4;
1181 src_base = src;
1182 ONE_MORE_BYTE (c);
1183 if (c < 0 || UTF_8_1_OCTET_P (c))
1185 nchars++;
1186 if (c == '\r')
1188 if (src < src_end && *src == '\n')
1190 eol_seen |= EOL_SEEN_CRLF;
1191 src++;
1192 nchars++;
1194 else
1195 eol_seen |= EOL_SEEN_CR;
1197 else if (c == '\n')
1198 eol_seen |= EOL_SEEN_LF;
1199 continue;
1201 ONE_MORE_BYTE (c1);
1202 if (c1 < 0 || ! UTF_8_EXTRA_OCTET_P (c1))
1203 break;
1204 if (UTF_8_2_OCTET_LEADING_P (c))
1206 nchars++;
1207 continue;
1209 ONE_MORE_BYTE (c2);
1210 if (c2 < 0 || ! UTF_8_EXTRA_OCTET_P (c2))
1211 break;
1212 if (UTF_8_3_OCTET_LEADING_P (c))
1214 nchars++;
1215 continue;
1217 ONE_MORE_BYTE (c3);
1218 if (c3 < 0 || ! UTF_8_EXTRA_OCTET_P (c3))
1219 break;
1220 if (UTF_8_4_OCTET_LEADING_P (c))
1222 nchars++;
1223 continue;
1225 ONE_MORE_BYTE (c4);
1226 if (c4 < 0 || ! UTF_8_EXTRA_OCTET_P (c4))
1227 break;
1228 if (UTF_8_5_OCTET_LEADING_P (c))
1230 nchars++;
1231 continue;
1233 break;
1235 detect_info->rejected |= CATEGORY_MASK_UTF_8;
1236 return 0;
1238 no_more_source:
1239 if (src_base < src && coding->mode & CODING_MODE_LAST_BLOCK)
1241 detect_info->rejected |= CATEGORY_MASK_UTF_8;
1242 return 0;
1244 if (bom_found)
1246 /* The first character 0xFFFE doesn't necessarily mean a BOM. */
1247 detect_info->found |= CATEGORY_MASK_UTF_8_AUTO | CATEGORY_MASK_UTF_8_SIG | CATEGORY_MASK_UTF_8_NOSIG;
1249 else
1251 detect_info->rejected |= CATEGORY_MASK_UTF_8_SIG;
1252 if (nchars < src_end - coding->source)
1253 /* The found characters are less than source bytes, which
1254 means that we found a valid non-ASCII characters. */
1255 detect_info->found |= CATEGORY_MASK_UTF_8_AUTO | CATEGORY_MASK_UTF_8_NOSIG;
1257 coding->detected_utf8_bytes = src_base - coding->source;
1258 coding->detected_utf8_chars = nchars;
1259 return 1;
1263 static void
1264 decode_coding_utf_8 (struct coding_system *coding)
1266 const unsigned char *src = coding->source + coding->consumed;
1267 const unsigned char *src_end = coding->source + coding->src_bytes;
1268 const unsigned char *src_base;
1269 int *charbuf = coding->charbuf + coding->charbuf_used;
1270 int *charbuf_end = coding->charbuf + coding->charbuf_size;
1271 ptrdiff_t consumed_chars = 0, consumed_chars_base = 0;
1272 bool multibytep = coding->src_multibyte;
1273 enum utf_bom_type bom = CODING_UTF_8_BOM (coding);
1274 bool eol_dos
1275 = !inhibit_eol_conversion && EQ (CODING_ID_EOL_TYPE (coding->id), Qdos);
1276 int byte_after_cr = -1;
1278 if (bom != utf_without_bom)
1280 int c1, c2, c3;
1282 src_base = src;
1283 ONE_MORE_BYTE (c1);
1284 if (! UTF_8_3_OCTET_LEADING_P (c1))
1285 src = src_base;
1286 else
1288 ONE_MORE_BYTE (c2);
1289 if (! UTF_8_EXTRA_OCTET_P (c2))
1290 src = src_base;
1291 else
1293 ONE_MORE_BYTE (c3);
1294 if (! UTF_8_EXTRA_OCTET_P (c3))
1295 src = src_base;
1296 else
1298 if ((c1 != UTF_8_BOM_1)
1299 || (c2 != UTF_8_BOM_2) || (c3 != UTF_8_BOM_3))
1300 src = src_base;
1301 else
1302 CODING_UTF_8_BOM (coding) = utf_without_bom;
1307 CODING_UTF_8_BOM (coding) = utf_without_bom;
1309 while (1)
1311 int c, c1, c2, c3, c4, c5;
1313 src_base = src;
1314 consumed_chars_base = consumed_chars;
1316 if (charbuf >= charbuf_end)
1318 if (byte_after_cr >= 0)
1319 src_base--;
1320 break;
1323 /* In the simple case, rapidly handle ordinary characters */
1324 if (multibytep && ! eol_dos
1325 && charbuf < charbuf_end - 6 && src < src_end - 6)
1327 while (charbuf < charbuf_end - 6 && src < src_end - 6)
1329 c1 = *src;
1330 if (c1 & 0x80)
1331 break;
1332 src++;
1333 consumed_chars++;
1334 *charbuf++ = c1;
1336 c1 = *src;
1337 if (c1 & 0x80)
1338 break;
1339 src++;
1340 consumed_chars++;
1341 *charbuf++ = c1;
1343 c1 = *src;
1344 if (c1 & 0x80)
1345 break;
1346 src++;
1347 consumed_chars++;
1348 *charbuf++ = c1;
1350 c1 = *src;
1351 if (c1 & 0x80)
1352 break;
1353 src++;
1354 consumed_chars++;
1355 *charbuf++ = c1;
1357 /* If we handled at least one character, restart the main loop. */
1358 if (src != src_base)
1359 continue;
1362 if (byte_after_cr >= 0)
1363 c1 = byte_after_cr, byte_after_cr = -1;
1364 else
1365 ONE_MORE_BYTE (c1);
1366 if (c1 < 0)
1368 c = - c1;
1370 else if (UTF_8_1_OCTET_P (c1))
1372 if (eol_dos && c1 == '\r')
1373 ONE_MORE_BYTE (byte_after_cr);
1374 c = c1;
1376 else
1378 ONE_MORE_BYTE (c2);
1379 if (c2 < 0 || ! UTF_8_EXTRA_OCTET_P (c2))
1380 goto invalid_code;
1381 if (UTF_8_2_OCTET_LEADING_P (c1))
1383 c = ((c1 & 0x1F) << 6) | (c2 & 0x3F);
1384 /* Reject overlong sequences here and below. Encoders
1385 producing them are incorrect, they can be misleading,
1386 and they mess up read/write invariance. */
1387 if (c < 128)
1388 goto invalid_code;
1390 else
1392 ONE_MORE_BYTE (c3);
1393 if (c3 < 0 || ! UTF_8_EXTRA_OCTET_P (c3))
1394 goto invalid_code;
1395 if (UTF_8_3_OCTET_LEADING_P (c1))
1397 c = (((c1 & 0xF) << 12)
1398 | ((c2 & 0x3F) << 6) | (c3 & 0x3F));
1399 if (c < 0x800
1400 || (c >= 0xd800 && c < 0xe000)) /* surrogates (invalid) */
1401 goto invalid_code;
1403 else
1405 ONE_MORE_BYTE (c4);
1406 if (c4 < 0 || ! UTF_8_EXTRA_OCTET_P (c4))
1407 goto invalid_code;
1408 if (UTF_8_4_OCTET_LEADING_P (c1))
1410 c = (((c1 & 0x7) << 18) | ((c2 & 0x3F) << 12)
1411 | ((c3 & 0x3F) << 6) | (c4 & 0x3F));
1412 if (c < 0x10000)
1413 goto invalid_code;
1415 else
1417 ONE_MORE_BYTE (c5);
1418 if (c5 < 0 || ! UTF_8_EXTRA_OCTET_P (c5))
1419 goto invalid_code;
1420 if (UTF_8_5_OCTET_LEADING_P (c1))
1422 c = (((c1 & 0x3) << 24) | ((c2 & 0x3F) << 18)
1423 | ((c3 & 0x3F) << 12) | ((c4 & 0x3F) << 6)
1424 | (c5 & 0x3F));
1425 if ((c > MAX_CHAR) || (c < 0x200000))
1426 goto invalid_code;
1428 else
1429 goto invalid_code;
1435 *charbuf++ = c;
1436 continue;
1438 invalid_code:
1439 src = src_base;
1440 consumed_chars = consumed_chars_base;
1441 ONE_MORE_BYTE (c);
1442 *charbuf++ = ASCII_CHAR_P (c) ? c : BYTE8_TO_CHAR (c);
1445 no_more_source:
1446 coding->consumed_char += consumed_chars_base;
1447 coding->consumed = src_base - coding->source;
1448 coding->charbuf_used = charbuf - coding->charbuf;
1452 static bool
1453 encode_coding_utf_8 (struct coding_system *coding)
1455 bool multibytep = coding->dst_multibyte;
1456 int *charbuf = coding->charbuf;
1457 int *charbuf_end = charbuf + coding->charbuf_used;
1458 unsigned char *dst = coding->destination + coding->produced;
1459 unsigned char *dst_end = coding->destination + coding->dst_bytes;
1460 ptrdiff_t produced_chars = 0;
1461 int c;
1463 if (CODING_UTF_8_BOM (coding) == utf_with_bom)
1465 ASSURE_DESTINATION (3);
1466 EMIT_THREE_BYTES (UTF_8_BOM_1, UTF_8_BOM_2, UTF_8_BOM_3);
1467 CODING_UTF_8_BOM (coding) = utf_without_bom;
1470 if (multibytep)
1472 int safe_room = MAX_MULTIBYTE_LENGTH * 2;
1474 while (charbuf < charbuf_end)
1476 unsigned char str[MAX_MULTIBYTE_LENGTH], *p, *pend = str;
1478 ASSURE_DESTINATION (safe_room);
1479 c = *charbuf++;
1480 if (CHAR_BYTE8_P (c))
1482 c = CHAR_TO_BYTE8 (c);
1483 EMIT_ONE_BYTE (c);
1485 else
1487 CHAR_STRING_ADVANCE_NO_UNIFY (c, pend);
1488 for (p = str; p < pend; p++)
1489 EMIT_ONE_BYTE (*p);
1493 else
1495 int safe_room = MAX_MULTIBYTE_LENGTH;
1497 while (charbuf < charbuf_end)
1499 ASSURE_DESTINATION (safe_room);
1500 c = *charbuf++;
1501 if (CHAR_BYTE8_P (c))
1502 *dst++ = CHAR_TO_BYTE8 (c);
1503 else
1504 CHAR_STRING_ADVANCE_NO_UNIFY (c, dst);
1506 produced_chars = dst - (coding->destination + coding->produced);
1508 record_conversion_result (coding, CODING_RESULT_SUCCESS);
1509 coding->produced_char += produced_chars;
1510 coding->produced = dst - coding->destination;
1511 return 0;
1515 /* See the above "GENERAL NOTES on `detect_coding_XXX ()' functions".
1516 Return true if a text is encoded in one of UTF-16 based coding systems. */
1518 #define UTF_16_HIGH_SURROGATE_P(val) \
1519 (((val) & 0xFC00) == 0xD800)
1521 #define UTF_16_LOW_SURROGATE_P(val) \
1522 (((val) & 0xFC00) == 0xDC00)
1525 static bool
1526 detect_coding_utf_16 (struct coding_system *coding,
1527 struct coding_detection_info *detect_info)
1529 const unsigned char *src = coding->source;
1530 const unsigned char *src_end = coding->source + coding->src_bytes;
1531 bool multibytep = coding->src_multibyte;
1532 int c1, c2;
1534 detect_info->checked |= CATEGORY_MASK_UTF_16;
1535 if (coding->mode & CODING_MODE_LAST_BLOCK
1536 && (coding->src_chars & 1))
1538 detect_info->rejected |= CATEGORY_MASK_UTF_16;
1539 return 0;
1542 TWO_MORE_BYTES (c1, c2);
1543 if ((c1 == 0xFF) && (c2 == 0xFE))
1545 detect_info->found |= (CATEGORY_MASK_UTF_16_LE
1546 | CATEGORY_MASK_UTF_16_AUTO);
1547 detect_info->rejected |= (CATEGORY_MASK_UTF_16_BE
1548 | CATEGORY_MASK_UTF_16_BE_NOSIG
1549 | CATEGORY_MASK_UTF_16_LE_NOSIG);
1551 else if ((c1 == 0xFE) && (c2 == 0xFF))
1553 detect_info->found |= (CATEGORY_MASK_UTF_16_BE
1554 | CATEGORY_MASK_UTF_16_AUTO);
1555 detect_info->rejected |= (CATEGORY_MASK_UTF_16_LE
1556 | CATEGORY_MASK_UTF_16_BE_NOSIG
1557 | CATEGORY_MASK_UTF_16_LE_NOSIG);
1559 else if (c2 < 0)
1561 detect_info->rejected |= CATEGORY_MASK_UTF_16;
1562 return 0;
1564 else
1566 /* We check the dispersion of Eth and Oth bytes where E is even and
1567 O is odd. If both are high, we assume binary data.*/
1568 unsigned char e[256], o[256];
1569 unsigned e_num = 1, o_num = 1;
1571 memset (e, 0, 256);
1572 memset (o, 0, 256);
1573 e[c1] = 1;
1574 o[c2] = 1;
1576 detect_info->rejected |= (CATEGORY_MASK_UTF_16_AUTO
1577 |CATEGORY_MASK_UTF_16_BE
1578 | CATEGORY_MASK_UTF_16_LE);
1580 while ((detect_info->rejected & CATEGORY_MASK_UTF_16)
1581 != CATEGORY_MASK_UTF_16)
1583 TWO_MORE_BYTES (c1, c2);
1584 if (c2 < 0)
1585 break;
1586 if (! e[c1])
1588 e[c1] = 1;
1589 e_num++;
1590 if (e_num >= 128)
1591 detect_info->rejected |= CATEGORY_MASK_UTF_16_BE_NOSIG;
1593 if (! o[c2])
1595 o[c2] = 1;
1596 o_num++;
1597 if (o_num >= 128)
1598 detect_info->rejected |= CATEGORY_MASK_UTF_16_LE_NOSIG;
1601 return 0;
1604 no_more_source:
1605 return 1;
1608 static void
1609 decode_coding_utf_16 (struct coding_system *coding)
1611 const unsigned char *src = coding->source + coding->consumed;
1612 const unsigned char *src_end = coding->source + coding->src_bytes;
1613 const unsigned char *src_base;
1614 int *charbuf = coding->charbuf + coding->charbuf_used;
1615 /* We may produces at most 3 chars in one loop. */
1616 int *charbuf_end = coding->charbuf + coding->charbuf_size - 2;
1617 ptrdiff_t consumed_chars = 0, consumed_chars_base = 0;
1618 bool multibytep = coding->src_multibyte;
1619 enum utf_bom_type bom = CODING_UTF_16_BOM (coding);
1620 enum utf_16_endian_type endian = CODING_UTF_16_ENDIAN (coding);
1621 int surrogate = CODING_UTF_16_SURROGATE (coding);
1622 bool eol_dos
1623 = !inhibit_eol_conversion && EQ (CODING_ID_EOL_TYPE (coding->id), Qdos);
1624 int byte_after_cr1 = -1, byte_after_cr2 = -1;
1626 if (bom == utf_with_bom)
1628 int c, c1, c2;
1630 src_base = src;
1631 ONE_MORE_BYTE (c1);
1632 ONE_MORE_BYTE (c2);
1633 c = (c1 << 8) | c2;
1635 if (endian == utf_16_big_endian
1636 ? c != 0xFEFF : c != 0xFFFE)
1638 /* The first two bytes are not BOM. Treat them as bytes
1639 for a normal character. */
1640 src = src_base;
1642 CODING_UTF_16_BOM (coding) = utf_without_bom;
1644 else if (bom == utf_detect_bom)
1646 /* We have already tried to detect BOM and failed in
1647 detect_coding. */
1648 CODING_UTF_16_BOM (coding) = utf_without_bom;
1651 while (1)
1653 int c, c1, c2;
1655 src_base = src;
1656 consumed_chars_base = consumed_chars;
1658 if (charbuf >= charbuf_end)
1660 if (byte_after_cr1 >= 0)
1661 src_base -= 2;
1662 break;
1665 if (byte_after_cr1 >= 0)
1666 c1 = byte_after_cr1, byte_after_cr1 = -1;
1667 else
1668 ONE_MORE_BYTE (c1);
1669 if (c1 < 0)
1671 *charbuf++ = -c1;
1672 continue;
1674 if (byte_after_cr2 >= 0)
1675 c2 = byte_after_cr2, byte_after_cr2 = -1;
1676 else
1677 ONE_MORE_BYTE (c2);
1678 if (c2 < 0)
1680 *charbuf++ = ASCII_CHAR_P (c1) ? c1 : BYTE8_TO_CHAR (c1);
1681 *charbuf++ = -c2;
1682 continue;
1684 c = (endian == utf_16_big_endian
1685 ? ((c1 << 8) | c2) : ((c2 << 8) | c1));
1687 if (surrogate)
1689 if (! UTF_16_LOW_SURROGATE_P (c))
1691 if (endian == utf_16_big_endian)
1692 c1 = surrogate >> 8, c2 = surrogate & 0xFF;
1693 else
1694 c1 = surrogate & 0xFF, c2 = surrogate >> 8;
1695 *charbuf++ = c1;
1696 *charbuf++ = c2;
1697 if (UTF_16_HIGH_SURROGATE_P (c))
1698 CODING_UTF_16_SURROGATE (coding) = surrogate = c;
1699 else
1700 *charbuf++ = c;
1702 else
1704 c = ((surrogate - 0xD800) << 10) | (c - 0xDC00);
1705 CODING_UTF_16_SURROGATE (coding) = surrogate = 0;
1706 *charbuf++ = 0x10000 + c;
1709 else
1711 if (UTF_16_HIGH_SURROGATE_P (c))
1712 CODING_UTF_16_SURROGATE (coding) = surrogate = c;
1713 else
1715 if (eol_dos && c == '\r')
1717 ONE_MORE_BYTE (byte_after_cr1);
1718 ONE_MORE_BYTE (byte_after_cr2);
1720 *charbuf++ = c;
1725 no_more_source:
1726 coding->consumed_char += consumed_chars_base;
1727 coding->consumed = src_base - coding->source;
1728 coding->charbuf_used = charbuf - coding->charbuf;
1731 static bool
1732 encode_coding_utf_16 (struct coding_system *coding)
1734 bool multibytep = coding->dst_multibyte;
1735 int *charbuf = coding->charbuf;
1736 int *charbuf_end = charbuf + coding->charbuf_used;
1737 unsigned char *dst = coding->destination + coding->produced;
1738 unsigned char *dst_end = coding->destination + coding->dst_bytes;
1739 int safe_room = 8;
1740 enum utf_bom_type bom = CODING_UTF_16_BOM (coding);
1741 bool big_endian = CODING_UTF_16_ENDIAN (coding) == utf_16_big_endian;
1742 ptrdiff_t produced_chars = 0;
1743 int c;
1745 if (bom != utf_without_bom)
1747 ASSURE_DESTINATION (safe_room);
1748 if (big_endian)
1749 EMIT_TWO_BYTES (0xFE, 0xFF);
1750 else
1751 EMIT_TWO_BYTES (0xFF, 0xFE);
1752 CODING_UTF_16_BOM (coding) = utf_without_bom;
1755 while (charbuf < charbuf_end)
1757 ASSURE_DESTINATION (safe_room);
1758 c = *charbuf++;
1759 if (c > MAX_UNICODE_CHAR)
1760 c = coding->default_char;
1762 if (c < 0x10000)
1764 if (big_endian)
1765 EMIT_TWO_BYTES (c >> 8, c & 0xFF);
1766 else
1767 EMIT_TWO_BYTES (c & 0xFF, c >> 8);
1769 else
1771 int c1, c2;
1773 c -= 0x10000;
1774 c1 = (c >> 10) + 0xD800;
1775 c2 = (c & 0x3FF) + 0xDC00;
1776 if (big_endian)
1777 EMIT_FOUR_BYTES (c1 >> 8, c1 & 0xFF, c2 >> 8, c2 & 0xFF);
1778 else
1779 EMIT_FOUR_BYTES (c1 & 0xFF, c1 >> 8, c2 & 0xFF, c2 >> 8);
1782 record_conversion_result (coding, CODING_RESULT_SUCCESS);
1783 coding->produced = dst - coding->destination;
1784 coding->produced_char += produced_chars;
1785 return 0;
1789 /*** 6. Old Emacs' internal format (emacs-mule) ***/
1791 /* Emacs' internal format for representation of multiple character
1792 sets is a kind of multi-byte encoding, i.e. characters are
1793 represented by variable-length sequences of one-byte codes.
1795 ASCII characters and control characters (e.g. `tab', `newline') are
1796 represented by one-byte sequences which are their ASCII codes, in
1797 the range 0x00 through 0x7F.
1799 8-bit characters of the range 0x80..0x9F are represented by
1800 two-byte sequences of LEADING_CODE_8_BIT_CONTROL and (their 8-bit
1801 code + 0x20).
1803 8-bit characters of the range 0xA0..0xFF are represented by
1804 one-byte sequences which are their 8-bit code.
1806 The other characters are represented by a sequence of `base
1807 leading-code', optional `extended leading-code', and one or two
1808 `position-code's. The length of the sequence is determined by the
1809 base leading-code. Leading-code takes the range 0x81 through 0x9D,
1810 whereas extended leading-code and position-code take the range 0xA0
1811 through 0xFF. See `charset.h' for more details about leading-code
1812 and position-code.
1814 --- CODE RANGE of Emacs' internal format ---
1815 character set range
1816 ------------- -----
1817 ascii 0x00..0x7F
1818 eight-bit-control LEADING_CODE_8_BIT_CONTROL + 0xA0..0xBF
1819 eight-bit-graphic 0xA0..0xBF
1820 ELSE 0x81..0x9D + [0xA0..0xFF]+
1821 ---------------------------------------------
1823 As this is the internal character representation, the format is
1824 usually not used externally (i.e. in a file or in a data sent to a
1825 process). But, it is possible to have a text externally in this
1826 format (i.e. by encoding by the coding system `emacs-mule').
1828 In that case, a sequence of one-byte codes has a slightly different
1829 form.
1831 At first, all characters in eight-bit-control are represented by
1832 one-byte sequences which are their 8-bit code.
1834 Next, character composition data are represented by the byte
1835 sequence of the form: 0x80 METHOD BYTES CHARS COMPONENT ...,
1836 where,
1837 METHOD is 0xF2 plus one of composition method (enum
1838 composition_method),
1840 BYTES is 0xA0 plus a byte length of this composition data,
1842 CHARS is 0xA0 plus a number of characters composed by this
1843 data,
1845 COMPONENTs are characters of multibyte form or composition
1846 rules encoded by two-byte of ASCII codes.
1848 In addition, for backward compatibility, the following formats are
1849 also recognized as composition data on decoding.
1851 0x80 MSEQ ...
1852 0x80 0xFF MSEQ RULE MSEQ RULE ... MSEQ
1854 Here,
1855 MSEQ is a multibyte form but in these special format:
1856 ASCII: 0xA0 ASCII_CODE+0x80,
1857 other: LEADING_CODE+0x20 FOLLOWING-BYTE ...,
1858 RULE is a one byte code of the range 0xA0..0xF0 that
1859 represents a composition rule.
1862 char emacs_mule_bytes[256];
1865 /* See the above "GENERAL NOTES on `detect_coding_XXX ()' functions".
1866 Return true if a text is encoded in 'emacs-mule'. */
1868 static bool
1869 detect_coding_emacs_mule (struct coding_system *coding,
1870 struct coding_detection_info *detect_info)
1872 const unsigned char *src = coding->source, *src_base;
1873 const unsigned char *src_end = coding->source + coding->src_bytes;
1874 bool multibytep = coding->src_multibyte;
1875 ptrdiff_t consumed_chars = 0;
1876 int c;
1877 int found = 0;
1879 detect_info->checked |= CATEGORY_MASK_EMACS_MULE;
1880 /* A coding system of this category is always ASCII compatible. */
1881 src += coding->head_ascii;
1883 while (1)
1885 src_base = src;
1886 ONE_MORE_BYTE (c);
1887 if (c < 0)
1888 continue;
1889 if (c == 0x80)
1891 /* Perhaps the start of composite character. We simply skip
1892 it because analyzing it is too heavy for detecting. But,
1893 at least, we check that the composite character
1894 constitutes of more than 4 bytes. */
1895 const unsigned char *src_start;
1897 repeat:
1898 src_start = src;
1901 ONE_MORE_BYTE (c);
1903 while (c >= 0xA0);
1905 if (src - src_start <= 4)
1906 break;
1907 found = CATEGORY_MASK_EMACS_MULE;
1908 if (c == 0x80)
1909 goto repeat;
1912 if (c < 0x80)
1914 if (c < 0x20
1915 && (c == ISO_CODE_ESC || c == ISO_CODE_SI || c == ISO_CODE_SO))
1916 break;
1918 else
1920 int more_bytes = emacs_mule_bytes[c] - 1;
1922 while (more_bytes > 0)
1924 ONE_MORE_BYTE (c);
1925 if (c < 0xA0)
1927 src--; /* Unread the last byte. */
1928 break;
1930 more_bytes--;
1932 if (more_bytes != 0)
1933 break;
1934 found = CATEGORY_MASK_EMACS_MULE;
1937 detect_info->rejected |= CATEGORY_MASK_EMACS_MULE;
1938 return 0;
1940 no_more_source:
1941 if (src_base < src && coding->mode & CODING_MODE_LAST_BLOCK)
1943 detect_info->rejected |= CATEGORY_MASK_EMACS_MULE;
1944 return 0;
1946 detect_info->found |= found;
1947 return 1;
1951 /* Parse emacs-mule multibyte sequence at SRC and return the decoded
1952 character. If CMP_STATUS indicates that we must expect MSEQ or
1953 RULE described above, decode it and return the negative value of
1954 the decoded character or rule. If an invalid byte is found, return
1955 -1. If SRC is too short, return -2. */
1957 static int
1958 emacs_mule_char (struct coding_system *coding, const unsigned char *src,
1959 int *nbytes, int *nchars, int *id,
1960 struct composition_status *cmp_status)
1962 const unsigned char *src_end = coding->source + coding->src_bytes;
1963 const unsigned char *src_base = src;
1964 bool multibytep = coding->src_multibyte;
1965 int charset_ID;
1966 unsigned code;
1967 int c;
1968 ptrdiff_t consumed_chars = 0;
1969 bool mseq_found = 0;
1971 ONE_MORE_BYTE (c);
1972 if (c < 0)
1974 c = -c;
1975 charset_ID = emacs_mule_charset[0];
1977 else
1979 if (c >= 0xA0)
1981 if (cmp_status->state != COMPOSING_NO
1982 && cmp_status->old_form)
1984 if (cmp_status->state == COMPOSING_CHAR)
1986 if (c == 0xA0)
1988 ONE_MORE_BYTE (c);
1989 c -= 0x80;
1990 if (c < 0)
1991 goto invalid_code;
1993 else
1994 c -= 0x20;
1995 mseq_found = 1;
1997 else
1999 *nbytes = src - src_base;
2000 *nchars = consumed_chars;
2001 return -c;
2004 else
2005 goto invalid_code;
2008 switch (emacs_mule_bytes[c])
2010 case 2:
2011 if ((charset_ID = emacs_mule_charset[c]) < 0)
2012 goto invalid_code;
2013 ONE_MORE_BYTE (c);
2014 if (c < 0xA0)
2015 goto invalid_code;
2016 code = c & 0x7F;
2017 break;
2019 case 3:
2020 if (c == EMACS_MULE_LEADING_CODE_PRIVATE_11
2021 || c == EMACS_MULE_LEADING_CODE_PRIVATE_12)
2023 ONE_MORE_BYTE (c);
2024 if (c < 0xA0 || (charset_ID = emacs_mule_charset[c]) < 0)
2025 goto invalid_code;
2026 ONE_MORE_BYTE (c);
2027 if (c < 0xA0)
2028 goto invalid_code;
2029 code = c & 0x7F;
2031 else
2033 if ((charset_ID = emacs_mule_charset[c]) < 0)
2034 goto invalid_code;
2035 ONE_MORE_BYTE (c);
2036 if (c < 0xA0)
2037 goto invalid_code;
2038 code = (c & 0x7F) << 8;
2039 ONE_MORE_BYTE (c);
2040 if (c < 0xA0)
2041 goto invalid_code;
2042 code |= c & 0x7F;
2044 break;
2046 case 4:
2047 ONE_MORE_BYTE (c);
2048 if (c < 0 || (charset_ID = emacs_mule_charset[c]) < 0)
2049 goto invalid_code;
2050 ONE_MORE_BYTE (c);
2051 if (c < 0xA0)
2052 goto invalid_code;
2053 code = (c & 0x7F) << 8;
2054 ONE_MORE_BYTE (c);
2055 if (c < 0xA0)
2056 goto invalid_code;
2057 code |= c & 0x7F;
2058 break;
2060 case 1:
2061 code = c;
2062 charset_ID = ASCII_CHAR_P (code) ? charset_ascii : charset_eight_bit;
2063 break;
2065 default:
2066 emacs_abort ();
2068 CODING_DECODE_CHAR (coding, src, src_base, src_end,
2069 CHARSET_FROM_ID (charset_ID), code, c);
2070 if (c < 0)
2071 goto invalid_code;
2073 *nbytes = src - src_base;
2074 *nchars = consumed_chars;
2075 if (id)
2076 *id = charset_ID;
2077 return (mseq_found ? -c : c);
2079 no_more_source:
2080 return -2;
2082 invalid_code:
2083 return -1;
2087 /* See the above "GENERAL NOTES on `decode_coding_XXX ()' functions". */
2089 /* Handle these composition sequence ('|': the end of header elements,
2090 BYTES and CHARS >= 0xA0):
2092 (1) relative composition: 0x80 0xF2 BYTES CHARS | CHAR ...
2093 (2) altchar composition: 0x80 0xF4 BYTES CHARS | ALT ... ALT CHAR ...
2094 (3) alt&rule composition: 0x80 0xF5 BYTES CHARS | ALT RULE ... ALT CHAR ...
2096 and these old form:
2098 (4) relative composition: 0x80 | MSEQ ... MSEQ
2099 (5) rulebase composition: 0x80 0xFF | MSEQ MRULE ... MSEQ
2101 When the starter 0x80 and the following header elements are found,
2102 this annotation header is produced.
2104 [ -LENGTH(==-5) CODING_ANNOTATE_COMPOSITION_MASK NCHARS NBYTES METHOD ]
2106 NCHARS is CHARS - 0xA0 for (1), (2), (3), and 0 for (4), (5).
2107 NBYTES is BYTES - 0xA0 for (1), (2), (3), and 0 for (4), (5).
2109 Then, upon reading the following elements, these codes are produced
2110 until the composition end is found:
2112 (1) CHAR ... CHAR
2113 (2) ALT ... ALT CHAR ... CHAR
2114 (3) ALT -2 DECODED-RULE ALT -2 DECODED-RULE ... ALT CHAR ... CHAR
2115 (4) CHAR ... CHAR
2116 (5) CHAR -2 DECODED-RULE CHAR -2 DECODED-RULE ... CHAR
2118 When the composition end is found, LENGTH and NCHARS in the
2119 annotation header is updated as below:
2121 (1) LENGTH: unchanged, NCHARS: unchanged
2122 (2) LENGTH: length of the whole sequence minus NCHARS, NCHARS: unchanged
2123 (3) LENGTH: length of the whole sequence minus NCHARS, NCHARS: unchanged
2124 (4) LENGTH: unchanged, NCHARS: number of CHARs
2125 (5) LENGTH: unchanged, NCHARS: number of CHARs
2127 If an error is found while composing, the annotation header is
2128 changed to the original composition header (plus filler -1s) as
2129 below:
2131 (1),(2),(3) [ 0x80 0xF2+METHOD BYTES CHARS -1 ]
2132 (5) [ 0x80 0xFF -1 -1- -1 ]
2134 and the sequence [ -2 DECODED-RULE ] is changed to the original
2135 byte sequence as below:
2136 o the original byte sequence is B: [ B -1 ]
2137 o the original byte sequence is B1 B2: [ B1 B2 ]
2139 Most of the routines are implemented by macros because many
2140 variables and labels in the caller decode_coding_emacs_mule must be
2141 accessible, and they are usually called just once (thus doesn't
2142 increase the size of compiled object). */
2144 /* Decode a composition rule represented by C as a component of
2145 composition sequence of Emacs 20 style. Set RULE to the decoded
2146 rule. */
2148 #define DECODE_EMACS_MULE_COMPOSITION_RULE_20(c, rule) \
2149 do { \
2150 int gref, nref; \
2152 c -= 0xA0; \
2153 if (c < 0 || c >= 81) \
2154 goto invalid_code; \
2155 gref = c / 9, nref = c % 9; \
2156 if (gref == 4) gref = 10; \
2157 if (nref == 4) nref = 10; \
2158 rule = COMPOSITION_ENCODE_RULE (gref, nref); \
2159 } while (0)
2162 /* Decode a composition rule represented by C and the following byte
2163 at SRC as a component of composition sequence of Emacs 21 style.
2164 Set RULE to the decoded rule. */
2166 #define DECODE_EMACS_MULE_COMPOSITION_RULE_21(c, rule) \
2167 do { \
2168 int gref, nref; \
2170 gref = c - 0x20; \
2171 if (gref < 0 || gref >= 81) \
2172 goto invalid_code; \
2173 ONE_MORE_BYTE (c); \
2174 nref = c - 0x20; \
2175 if (nref < 0 || nref >= 81) \
2176 goto invalid_code; \
2177 rule = COMPOSITION_ENCODE_RULE (gref, nref); \
2178 } while (0)
2181 /* Start of Emacs 21 style format. The first three bytes at SRC are
2182 (METHOD - 0xF2), (BYTES - 0xA0), (CHARS - 0xA0), where BYTES is the
2183 byte length of this composition information, CHARS is the number of
2184 characters composed by this composition. */
2186 #define DECODE_EMACS_MULE_21_COMPOSITION() \
2187 do { \
2188 enum composition_method method = c - 0xF2; \
2189 int nbytes, nchars; \
2191 ONE_MORE_BYTE (c); \
2192 if (c < 0) \
2193 goto invalid_code; \
2194 nbytes = c - 0xA0; \
2195 if (nbytes < 3 || (method == COMPOSITION_RELATIVE && nbytes != 4)) \
2196 goto invalid_code; \
2197 ONE_MORE_BYTE (c); \
2198 nchars = c - 0xA0; \
2199 if (nchars <= 0 || nchars >= MAX_COMPOSITION_COMPONENTS) \
2200 goto invalid_code; \
2201 cmp_status->old_form = 0; \
2202 cmp_status->method = method; \
2203 if (method == COMPOSITION_RELATIVE) \
2204 cmp_status->state = COMPOSING_CHAR; \
2205 else \
2206 cmp_status->state = COMPOSING_COMPONENT_CHAR; \
2207 cmp_status->length = MAX_ANNOTATION_LENGTH; \
2208 cmp_status->nchars = nchars; \
2209 cmp_status->ncomps = nbytes - 4; \
2210 ADD_COMPOSITION_DATA (charbuf, nchars, nbytes, method); \
2211 } while (0)
2214 /* Start of Emacs 20 style format for relative composition. */
2216 #define DECODE_EMACS_MULE_20_RELATIVE_COMPOSITION() \
2217 do { \
2218 cmp_status->old_form = 1; \
2219 cmp_status->method = COMPOSITION_RELATIVE; \
2220 cmp_status->state = COMPOSING_CHAR; \
2221 cmp_status->length = MAX_ANNOTATION_LENGTH; \
2222 cmp_status->nchars = cmp_status->ncomps = 0; \
2223 ADD_COMPOSITION_DATA (charbuf, 0, 0, cmp_status->method); \
2224 } while (0)
2227 /* Start of Emacs 20 style format for rule-base composition. */
2229 #define DECODE_EMACS_MULE_20_RULEBASE_COMPOSITION() \
2230 do { \
2231 cmp_status->old_form = 1; \
2232 cmp_status->method = COMPOSITION_WITH_RULE; \
2233 cmp_status->state = COMPOSING_CHAR; \
2234 cmp_status->length = MAX_ANNOTATION_LENGTH; \
2235 cmp_status->nchars = cmp_status->ncomps = 0; \
2236 ADD_COMPOSITION_DATA (charbuf, 0, 0, cmp_status->method); \
2237 } while (0)
2240 #define DECODE_EMACS_MULE_COMPOSITION_START() \
2241 do { \
2242 const unsigned char *current_src = src; \
2244 ONE_MORE_BYTE (c); \
2245 if (c < 0) \
2246 goto invalid_code; \
2247 if (c - 0xF2 >= COMPOSITION_RELATIVE \
2248 && c - 0xF2 <= COMPOSITION_WITH_RULE_ALTCHARS) \
2249 DECODE_EMACS_MULE_21_COMPOSITION (); \
2250 else if (c < 0xA0) \
2251 goto invalid_code; \
2252 else if (c < 0xC0) \
2254 DECODE_EMACS_MULE_20_RELATIVE_COMPOSITION (); \
2255 /* Re-read C as a composition component. */ \
2256 src = current_src; \
2258 else if (c == 0xFF) \
2259 DECODE_EMACS_MULE_20_RULEBASE_COMPOSITION (); \
2260 else \
2261 goto invalid_code; \
2262 } while (0)
2264 #define EMACS_MULE_COMPOSITION_END() \
2265 do { \
2266 int idx = - cmp_status->length; \
2268 if (cmp_status->old_form) \
2269 charbuf[idx + 2] = cmp_status->nchars; \
2270 else if (cmp_status->method > COMPOSITION_RELATIVE) \
2271 charbuf[idx] = charbuf[idx + 2] - cmp_status->length; \
2272 cmp_status->state = COMPOSING_NO; \
2273 } while (0)
2276 static int
2277 emacs_mule_finish_composition (int *charbuf,
2278 struct composition_status *cmp_status)
2280 int idx = - cmp_status->length;
2281 int new_chars;
2283 if (cmp_status->old_form && cmp_status->nchars > 0)
2285 charbuf[idx + 2] = cmp_status->nchars;
2286 new_chars = 0;
2287 if (cmp_status->method == COMPOSITION_WITH_RULE
2288 && cmp_status->state == COMPOSING_CHAR)
2290 /* The last rule was invalid. */
2291 int rule = charbuf[-1] + 0xA0;
2293 charbuf[-2] = BYTE8_TO_CHAR (rule);
2294 charbuf[-1] = -1;
2295 new_chars = 1;
2298 else
2300 charbuf[idx++] = BYTE8_TO_CHAR (0x80);
2302 if (cmp_status->method == COMPOSITION_WITH_RULE)
2304 charbuf[idx++] = BYTE8_TO_CHAR (0xFF);
2305 charbuf[idx++] = -3;
2306 charbuf[idx++] = 0;
2307 new_chars = 1;
2309 else
2311 int nchars = charbuf[idx + 1] + 0xA0;
2312 int nbytes = charbuf[idx + 2] + 0xA0;
2314 charbuf[idx++] = BYTE8_TO_CHAR (0xF2 + cmp_status->method);
2315 charbuf[idx++] = BYTE8_TO_CHAR (nbytes);
2316 charbuf[idx++] = BYTE8_TO_CHAR (nchars);
2317 charbuf[idx++] = -1;
2318 new_chars = 4;
2321 cmp_status->state = COMPOSING_NO;
2322 return new_chars;
2325 #define EMACS_MULE_MAYBE_FINISH_COMPOSITION() \
2326 do { \
2327 if (cmp_status->state != COMPOSING_NO) \
2328 char_offset += emacs_mule_finish_composition (charbuf, cmp_status); \
2329 } while (0)
2332 static void
2333 decode_coding_emacs_mule (struct coding_system *coding)
2335 const unsigned char *src = coding->source + coding->consumed;
2336 const unsigned char *src_end = coding->source + coding->src_bytes;
2337 const unsigned char *src_base;
2338 int *charbuf = coding->charbuf + coding->charbuf_used;
2339 /* We may produce two annotations (charset and composition) in one
2340 loop and one more charset annotation at the end. */
2341 int *charbuf_end
2342 = coding->charbuf + coding->charbuf_size - (MAX_ANNOTATION_LENGTH * 3)
2343 /* We can produce up to 2 characters in a loop. */
2344 - 1;
2345 ptrdiff_t consumed_chars = 0, consumed_chars_base;
2346 bool multibytep = coding->src_multibyte;
2347 ptrdiff_t char_offset = coding->produced_char;
2348 ptrdiff_t last_offset = char_offset;
2349 int last_id = charset_ascii;
2350 bool eol_dos
2351 = !inhibit_eol_conversion && EQ (CODING_ID_EOL_TYPE (coding->id), Qdos);
2352 int byte_after_cr = -1;
2353 struct composition_status *cmp_status = &coding->spec.emacs_mule.cmp_status;
2355 if (cmp_status->state != COMPOSING_NO)
2357 int i;
2359 if (charbuf_end - charbuf < cmp_status->length)
2360 emacs_abort ();
2361 for (i = 0; i < cmp_status->length; i++)
2362 *charbuf++ = cmp_status->carryover[i];
2363 coding->annotated = 1;
2366 while (1)
2368 int c;
2369 int id UNINIT;
2371 src_base = src;
2372 consumed_chars_base = consumed_chars;
2374 if (charbuf >= charbuf_end)
2376 if (byte_after_cr >= 0)
2377 src_base--;
2378 break;
2381 if (byte_after_cr >= 0)
2382 c = byte_after_cr, byte_after_cr = -1;
2383 else
2384 ONE_MORE_BYTE (c);
2386 if (c < 0 || c == 0x80)
2388 EMACS_MULE_MAYBE_FINISH_COMPOSITION ();
2389 if (c < 0)
2391 *charbuf++ = -c;
2392 char_offset++;
2394 else
2395 DECODE_EMACS_MULE_COMPOSITION_START ();
2396 continue;
2399 if (c < 0x80)
2401 if (eol_dos && c == '\r')
2402 ONE_MORE_BYTE (byte_after_cr);
2403 id = charset_ascii;
2404 if (cmp_status->state != COMPOSING_NO)
2406 if (cmp_status->old_form)
2407 EMACS_MULE_MAYBE_FINISH_COMPOSITION ();
2408 else if (cmp_status->state >= COMPOSING_COMPONENT_CHAR)
2409 cmp_status->ncomps--;
2412 else
2414 int nchars UNINIT, nbytes UNINIT;
2415 /* emacs_mule_char can load a charset map from a file, which
2416 allocates a large structure and might cause buffer text
2417 to be relocated as result. Thus, we need to remember the
2418 original pointer to buffer text, and fix up all related
2419 pointers after the call. */
2420 const unsigned char *orig = coding->source;
2421 ptrdiff_t offset;
2423 c = emacs_mule_char (coding, src_base, &nbytes, &nchars, &id,
2424 cmp_status);
2425 offset = coding->source - orig;
2426 if (offset)
2428 src += offset;
2429 src_base += offset;
2430 src_end += offset;
2432 if (c < 0)
2434 if (c == -1)
2435 goto invalid_code;
2436 if (c == -2)
2437 break;
2439 src = src_base + nbytes;
2440 consumed_chars = consumed_chars_base + nchars;
2441 if (cmp_status->state >= COMPOSING_COMPONENT_CHAR)
2442 cmp_status->ncomps -= nchars;
2445 /* Now if C >= 0, we found a normally encoded character, if C <
2446 0, we found an old-style composition component character or
2447 rule. */
2449 if (cmp_status->state == COMPOSING_NO)
2451 if (last_id != id)
2453 if (last_id != charset_ascii)
2454 ADD_CHARSET_DATA (charbuf, char_offset - last_offset,
2455 last_id);
2456 last_id = id;
2457 last_offset = char_offset;
2459 *charbuf++ = c;
2460 char_offset++;
2462 else if (cmp_status->state == COMPOSING_CHAR)
2464 if (cmp_status->old_form)
2466 if (c >= 0)
2468 EMACS_MULE_MAYBE_FINISH_COMPOSITION ();
2469 *charbuf++ = c;
2470 char_offset++;
2472 else
2474 *charbuf++ = -c;
2475 cmp_status->nchars++;
2476 cmp_status->length++;
2477 if (cmp_status->nchars == MAX_COMPOSITION_COMPONENTS)
2478 EMACS_MULE_COMPOSITION_END ();
2479 else if (cmp_status->method == COMPOSITION_WITH_RULE)
2480 cmp_status->state = COMPOSING_RULE;
2483 else
2485 *charbuf++ = c;
2486 cmp_status->length++;
2487 cmp_status->nchars--;
2488 if (cmp_status->nchars == 0)
2489 EMACS_MULE_COMPOSITION_END ();
2492 else if (cmp_status->state == COMPOSING_RULE)
2494 int rule;
2496 if (c >= 0)
2498 EMACS_MULE_COMPOSITION_END ();
2499 *charbuf++ = c;
2500 char_offset++;
2502 else
2504 c = -c;
2505 DECODE_EMACS_MULE_COMPOSITION_RULE_20 (c, rule);
2506 if (rule < 0)
2507 goto invalid_code;
2508 *charbuf++ = -2;
2509 *charbuf++ = rule;
2510 cmp_status->length += 2;
2511 cmp_status->state = COMPOSING_CHAR;
2514 else if (cmp_status->state == COMPOSING_COMPONENT_CHAR)
2516 *charbuf++ = c;
2517 cmp_status->length++;
2518 if (cmp_status->ncomps == 0)
2519 cmp_status->state = COMPOSING_CHAR;
2520 else if (cmp_status->ncomps > 0)
2522 if (cmp_status->method == COMPOSITION_WITH_RULE_ALTCHARS)
2523 cmp_status->state = COMPOSING_COMPONENT_RULE;
2525 else
2526 EMACS_MULE_MAYBE_FINISH_COMPOSITION ();
2528 else /* COMPOSING_COMPONENT_RULE */
2530 int rule;
2532 DECODE_EMACS_MULE_COMPOSITION_RULE_21 (c, rule);
2533 if (rule < 0)
2534 goto invalid_code;
2535 *charbuf++ = -2;
2536 *charbuf++ = rule;
2537 cmp_status->length += 2;
2538 cmp_status->ncomps--;
2539 if (cmp_status->ncomps > 0)
2540 cmp_status->state = COMPOSING_COMPONENT_CHAR;
2541 else
2542 EMACS_MULE_MAYBE_FINISH_COMPOSITION ();
2544 continue;
2546 invalid_code:
2547 EMACS_MULE_MAYBE_FINISH_COMPOSITION ();
2548 src = src_base;
2549 consumed_chars = consumed_chars_base;
2550 ONE_MORE_BYTE (c);
2551 *charbuf++ = ASCII_CHAR_P (c) ? c : BYTE8_TO_CHAR (c);
2552 char_offset++;
2555 no_more_source:
2556 if (cmp_status->state != COMPOSING_NO)
2558 if (coding->mode & CODING_MODE_LAST_BLOCK)
2559 EMACS_MULE_MAYBE_FINISH_COMPOSITION ();
2560 else
2562 int i;
2564 charbuf -= cmp_status->length;
2565 for (i = 0; i < cmp_status->length; i++)
2566 cmp_status->carryover[i] = charbuf[i];
2569 if (last_id != charset_ascii)
2570 ADD_CHARSET_DATA (charbuf, char_offset - last_offset, last_id);
2571 coding->consumed_char += consumed_chars_base;
2572 coding->consumed = src_base - coding->source;
2573 coding->charbuf_used = charbuf - coding->charbuf;
2577 #define EMACS_MULE_LEADING_CODES(id, codes) \
2578 do { \
2579 if (id < 0xA0) \
2580 codes[0] = id, codes[1] = 0; \
2581 else if (id < 0xE0) \
2582 codes[0] = 0x9A, codes[1] = id; \
2583 else if (id < 0xF0) \
2584 codes[0] = 0x9B, codes[1] = id; \
2585 else if (id < 0xF5) \
2586 codes[0] = 0x9C, codes[1] = id; \
2587 else \
2588 codes[0] = 0x9D, codes[1] = id; \
2589 } while (0);
2592 static bool
2593 encode_coding_emacs_mule (struct coding_system *coding)
2595 bool multibytep = coding->dst_multibyte;
2596 int *charbuf = coding->charbuf;
2597 int *charbuf_end = charbuf + coding->charbuf_used;
2598 unsigned char *dst = coding->destination + coding->produced;
2599 unsigned char *dst_end = coding->destination + coding->dst_bytes;
2600 int safe_room = 8;
2601 ptrdiff_t produced_chars = 0;
2602 Lisp_Object attrs, charset_list;
2603 int c;
2604 int preferred_charset_id = -1;
2606 CODING_GET_INFO (coding, attrs, charset_list);
2607 if (! EQ (charset_list, Vemacs_mule_charset_list))
2609 charset_list = Vemacs_mule_charset_list;
2610 ASET (attrs, coding_attr_charset_list, charset_list);
2613 while (charbuf < charbuf_end)
2615 ASSURE_DESTINATION (safe_room);
2616 c = *charbuf++;
2618 if (c < 0)
2620 /* Handle an annotation. */
2621 switch (*charbuf)
2623 case CODING_ANNOTATE_COMPOSITION_MASK:
2624 /* Not yet implemented. */
2625 break;
2626 case CODING_ANNOTATE_CHARSET_MASK:
2627 preferred_charset_id = charbuf[3];
2628 if (preferred_charset_id >= 0
2629 && NILP (Fmemq (make_number (preferred_charset_id),
2630 charset_list)))
2631 preferred_charset_id = -1;
2632 break;
2633 default:
2634 emacs_abort ();
2636 charbuf += -c - 1;
2637 continue;
2640 if (ASCII_CHAR_P (c))
2641 EMIT_ONE_ASCII_BYTE (c);
2642 else if (CHAR_BYTE8_P (c))
2644 c = CHAR_TO_BYTE8 (c);
2645 EMIT_ONE_BYTE (c);
2647 else
2649 struct charset *charset;
2650 unsigned code;
2651 int dimension;
2652 int emacs_mule_id;
2653 unsigned char leading_codes[2];
2655 if (preferred_charset_id >= 0)
2657 bool result;
2659 charset = CHARSET_FROM_ID (preferred_charset_id);
2660 CODING_CHAR_CHARSET_P (coding, dst, dst_end, c, charset, result);
2661 if (result)
2662 code = ENCODE_CHAR (charset, c);
2663 else
2664 CODING_CHAR_CHARSET (coding, dst, dst_end, c, charset_list,
2665 &code, charset);
2667 else
2668 CODING_CHAR_CHARSET (coding, dst, dst_end, c, charset_list,
2669 &code, charset);
2670 if (! charset)
2672 c = coding->default_char;
2673 if (ASCII_CHAR_P (c))
2675 EMIT_ONE_ASCII_BYTE (c);
2676 continue;
2678 CODING_CHAR_CHARSET (coding, dst, dst_end, c, charset_list,
2679 &code, charset);
2681 dimension = CHARSET_DIMENSION (charset);
2682 emacs_mule_id = CHARSET_EMACS_MULE_ID (charset);
2683 EMACS_MULE_LEADING_CODES (emacs_mule_id, leading_codes);
2684 EMIT_ONE_BYTE (leading_codes[0]);
2685 if (leading_codes[1])
2686 EMIT_ONE_BYTE (leading_codes[1]);
2687 if (dimension == 1)
2688 EMIT_ONE_BYTE (code | 0x80);
2689 else
2691 code |= 0x8080;
2692 EMIT_ONE_BYTE (code >> 8);
2693 EMIT_ONE_BYTE (code & 0xFF);
2697 record_conversion_result (coding, CODING_RESULT_SUCCESS);
2698 coding->produced_char += produced_chars;
2699 coding->produced = dst - coding->destination;
2700 return 0;
2704 /*** 7. ISO2022 handlers ***/
2706 /* The following note describes the coding system ISO2022 briefly.
2707 Since the intention of this note is to help understand the
2708 functions in this file, some parts are NOT ACCURATE or are OVERLY
2709 SIMPLIFIED. For thorough understanding, please refer to the
2710 original document of ISO2022. This is equivalent to the standard
2711 ECMA-35, obtainable from <URL:http://www.ecma.ch/> (*).
2713 ISO2022 provides many mechanisms to encode several character sets
2714 in 7-bit and 8-bit environments. For 7-bit environments, all text
2715 is encoded using bytes less than 128. This may make the encoded
2716 text a little bit longer, but the text passes more easily through
2717 several types of gateway, some of which strip off the MSB (Most
2718 Significant Bit).
2720 There are two kinds of character sets: control character sets and
2721 graphic character sets. The former contain control characters such
2722 as `newline' and `escape' to provide control functions (control
2723 functions are also provided by escape sequences). The latter
2724 contain graphic characters such as 'A' and '-'. Emacs recognizes
2725 two control character sets and many graphic character sets.
2727 Graphic character sets are classified into one of the following
2728 four classes, according to the number of bytes (DIMENSION) and
2729 number of characters in one dimension (CHARS) of the set:
2730 - DIMENSION1_CHARS94
2731 - DIMENSION1_CHARS96
2732 - DIMENSION2_CHARS94
2733 - DIMENSION2_CHARS96
2735 In addition, each character set is assigned an identification tag,
2736 unique for each set, called the "final character" (denoted as <F>
2737 hereafter). The <F> of each character set is decided by ECMA(*)
2738 when it is registered in ISO. The code range of <F> is 0x30..0x7F
2739 (0x30..0x3F are for private use only).
2741 Note (*): ECMA = European Computer Manufacturers Association
2743 Here are examples of graphic character sets [NAME(<F>)]:
2744 o DIMENSION1_CHARS94 -- ASCII('B'), right-half-of-JISX0201('I'), ...
2745 o DIMENSION1_CHARS96 -- right-half-of-ISO8859-1('A'), ...
2746 o DIMENSION2_CHARS94 -- GB2312('A'), JISX0208('B'), ...
2747 o DIMENSION2_CHARS96 -- none for the moment
2749 A code area (1 byte=8 bits) is divided into 4 areas, C0, GL, C1, and GR.
2750 C0 [0x00..0x1F] -- control character plane 0
2751 GL [0x20..0x7F] -- graphic character plane 0
2752 C1 [0x80..0x9F] -- control character plane 1
2753 GR [0xA0..0xFF] -- graphic character plane 1
2755 A control character set is directly designated and invoked to C0 or
2756 C1 by an escape sequence. The most common case is that:
2757 - ISO646's control character set is designated/invoked to C0, and
2758 - ISO6429's control character set is designated/invoked to C1,
2759 and usually these designations/invocations are omitted in encoded
2760 text. In a 7-bit environment, only C0 can be used, and a control
2761 character for C1 is encoded by an appropriate escape sequence to
2762 fit into the environment. All control characters for C1 are
2763 defined to have corresponding escape sequences.
2765 A graphic character set is at first designated to one of four
2766 graphic registers (G0 through G3), then these graphic registers are
2767 invoked to GL or GR. These designations and invocations can be
2768 done independently. The most common case is that G0 is invoked to
2769 GL, G1 is invoked to GR, and ASCII is designated to G0. Usually
2770 these invocations and designations are omitted in encoded text.
2771 In a 7-bit environment, only GL can be used.
2773 When a graphic character set of CHARS94 is invoked to GL, codes
2774 0x20 and 0x7F of the GL area work as control characters SPACE and
2775 DEL respectively, and codes 0xA0 and 0xFF of the GR area should not
2776 be used.
2778 There are two ways of invocation: locking-shift and single-shift.
2779 With locking-shift, the invocation lasts until the next different
2780 invocation, whereas with single-shift, the invocation affects the
2781 following character only and doesn't affect the locking-shift
2782 state. Invocations are done by the following control characters or
2783 escape sequences:
2785 ----------------------------------------------------------------------
2786 abbrev function cntrl escape seq description
2787 ----------------------------------------------------------------------
2788 SI/LS0 (shift-in) 0x0F none invoke G0 into GL
2789 SO/LS1 (shift-out) 0x0E none invoke G1 into GL
2790 LS2 (locking-shift-2) none ESC 'n' invoke G2 into GL
2791 LS3 (locking-shift-3) none ESC 'o' invoke G3 into GL
2792 LS1R (locking-shift-1 right) none ESC '~' invoke G1 into GR (*)
2793 LS2R (locking-shift-2 right) none ESC '}' invoke G2 into GR (*)
2794 LS3R (locking-shift 3 right) none ESC '|' invoke G3 into GR (*)
2795 SS2 (single-shift-2) 0x8E ESC 'N' invoke G2 for one char
2796 SS3 (single-shift-3) 0x8F ESC 'O' invoke G3 for one char
2797 ----------------------------------------------------------------------
2798 (*) These are not used by any known coding system.
2800 Control characters for these functions are defined by macros
2801 ISO_CODE_XXX in `coding.h'.
2803 Designations are done by the following escape sequences:
2804 ----------------------------------------------------------------------
2805 escape sequence description
2806 ----------------------------------------------------------------------
2807 ESC '(' <F> designate DIMENSION1_CHARS94<F> to G0
2808 ESC ')' <F> designate DIMENSION1_CHARS94<F> to G1
2809 ESC '*' <F> designate DIMENSION1_CHARS94<F> to G2
2810 ESC '+' <F> designate DIMENSION1_CHARS94<F> to G3
2811 ESC ',' <F> designate DIMENSION1_CHARS96<F> to G0 (*)
2812 ESC '-' <F> designate DIMENSION1_CHARS96<F> to G1
2813 ESC '.' <F> designate DIMENSION1_CHARS96<F> to G2
2814 ESC '/' <F> designate DIMENSION1_CHARS96<F> to G3
2815 ESC '$' '(' <F> designate DIMENSION2_CHARS94<F> to G0 (**)
2816 ESC '$' ')' <F> designate DIMENSION2_CHARS94<F> to G1
2817 ESC '$' '*' <F> designate DIMENSION2_CHARS94<F> to G2
2818 ESC '$' '+' <F> designate DIMENSION2_CHARS94<F> to G3
2819 ESC '$' ',' <F> designate DIMENSION2_CHARS96<F> to G0 (*)
2820 ESC '$' '-' <F> designate DIMENSION2_CHARS96<F> to G1
2821 ESC '$' '.' <F> designate DIMENSION2_CHARS96<F> to G2
2822 ESC '$' '/' <F> designate DIMENSION2_CHARS96<F> to G3
2823 ----------------------------------------------------------------------
2825 In this list, "DIMENSION1_CHARS94<F>" means a graphic character set
2826 of dimension 1, chars 94, and final character <F>, etc...
2828 Note (*): Although these designations are not allowed in ISO2022,
2829 Emacs accepts them on decoding, and produces them on encoding
2830 CHARS96 character sets in a coding system which is characterized as
2831 7-bit environment, non-locking-shift, and non-single-shift.
2833 Note (**): If <F> is '@', 'A', or 'B', the intermediate character
2834 '(' must be omitted. We refer to this as "short-form" hereafter.
2836 Now you may notice that there are a lot of ways of encoding the
2837 same multilingual text in ISO2022. Actually, there exist many
2838 coding systems such as Compound Text (used in X11's inter client
2839 communication, ISO-2022-JP (used in Japanese Internet), ISO-2022-KR
2840 (used in Korean Internet), EUC (Extended UNIX Code, used in Asian
2841 localized platforms), and all of these are variants of ISO2022.
2843 In addition to the above, Emacs handles two more kinds of escape
2844 sequences: ISO6429's direction specification and Emacs' private
2845 sequence for specifying character composition.
2847 ISO6429's direction specification takes the following form:
2848 o CSI ']' -- end of the current direction
2849 o CSI '0' ']' -- end of the current direction
2850 o CSI '1' ']' -- start of left-to-right text
2851 o CSI '2' ']' -- start of right-to-left text
2852 The control character CSI (0x9B: control sequence introducer) is
2853 abbreviated to the escape sequence ESC '[' in a 7-bit environment.
2855 Character composition specification takes the following form:
2856 o ESC '0' -- start relative composition
2857 o ESC '1' -- end composition
2858 o ESC '2' -- start rule-base composition (*)
2859 o ESC '3' -- start relative composition with alternate chars (**)
2860 o ESC '4' -- start rule-base composition with alternate chars (**)
2861 Since these are not standard escape sequences of any ISO standard,
2862 the use of them with these meanings is restricted to Emacs only.
2864 (*) This form is used only in Emacs 20.7 and older versions,
2865 but newer versions can safely decode it.
2866 (**) This form is used only in Emacs 21.1 and newer versions,
2867 and older versions can't decode it.
2869 Here's a list of example usages of these composition escape
2870 sequences (categorized by `enum composition_method').
2872 COMPOSITION_RELATIVE:
2873 ESC 0 CHAR [ CHAR ] ESC 1
2874 COMPOSITION_WITH_RULE:
2875 ESC 2 CHAR [ RULE CHAR ] ESC 1
2876 COMPOSITION_WITH_ALTCHARS:
2877 ESC 3 ALTCHAR [ ALTCHAR ] ESC 0 CHAR [ CHAR ] ESC 1
2878 COMPOSITION_WITH_RULE_ALTCHARS:
2879 ESC 4 ALTCHAR [ RULE ALTCHAR ] ESC 0 CHAR [ CHAR ] ESC 1 */
2881 static enum iso_code_class_type iso_code_class[256];
2883 #define SAFE_CHARSET_P(coding, id) \
2884 ((id) <= (coding)->max_charset_id \
2885 && (coding)->safe_charsets[id] != 255)
2887 static void
2888 setup_iso_safe_charsets (Lisp_Object attrs)
2890 Lisp_Object charset_list, safe_charsets;
2891 Lisp_Object request;
2892 Lisp_Object reg_usage;
2893 Lisp_Object tail;
2894 EMACS_INT reg94, reg96;
2895 int flags = XINT (AREF (attrs, coding_attr_iso_flags));
2896 int max_charset_id;
2898 charset_list = CODING_ATTR_CHARSET_LIST (attrs);
2899 if ((flags & CODING_ISO_FLAG_FULL_SUPPORT)
2900 && ! EQ (charset_list, Viso_2022_charset_list))
2902 charset_list = Viso_2022_charset_list;
2903 ASET (attrs, coding_attr_charset_list, charset_list);
2904 ASET (attrs, coding_attr_safe_charsets, Qnil);
2907 if (STRINGP (AREF (attrs, coding_attr_safe_charsets)))
2908 return;
2910 max_charset_id = 0;
2911 for (tail = charset_list; CONSP (tail); tail = XCDR (tail))
2913 int id = XINT (XCAR (tail));
2914 if (max_charset_id < id)
2915 max_charset_id = id;
2918 safe_charsets = make_uninit_string (max_charset_id + 1);
2919 memset (SDATA (safe_charsets), 255, max_charset_id + 1);
2920 request = AREF (attrs, coding_attr_iso_request);
2921 reg_usage = AREF (attrs, coding_attr_iso_usage);
2922 reg94 = XINT (XCAR (reg_usage));
2923 reg96 = XINT (XCDR (reg_usage));
2925 for (tail = charset_list; CONSP (tail); tail = XCDR (tail))
2927 Lisp_Object id;
2928 Lisp_Object reg;
2929 struct charset *charset;
2931 id = XCAR (tail);
2932 charset = CHARSET_FROM_ID (XINT (id));
2933 reg = Fcdr (Fassq (id, request));
2934 if (! NILP (reg))
2935 SSET (safe_charsets, XINT (id), XINT (reg));
2936 else if (charset->iso_chars_96)
2938 if (reg96 < 4)
2939 SSET (safe_charsets, XINT (id), reg96);
2941 else
2943 if (reg94 < 4)
2944 SSET (safe_charsets, XINT (id), reg94);
2947 ASET (attrs, coding_attr_safe_charsets, safe_charsets);
2951 /* See the above "GENERAL NOTES on `detect_coding_XXX ()' functions".
2952 Return true if a text is encoded in one of ISO-2022 based coding
2953 systems. */
2955 static bool
2956 detect_coding_iso_2022 (struct coding_system *coding,
2957 struct coding_detection_info *detect_info)
2959 const unsigned char *src = coding->source, *src_base = src;
2960 const unsigned char *src_end = coding->source + coding->src_bytes;
2961 bool multibytep = coding->src_multibyte;
2962 bool single_shifting = 0;
2963 int id;
2964 int c, c1;
2965 ptrdiff_t consumed_chars = 0;
2966 int i;
2967 int rejected = 0;
2968 int found = 0;
2969 int composition_count = -1;
2971 detect_info->checked |= CATEGORY_MASK_ISO;
2973 for (i = coding_category_iso_7; i <= coding_category_iso_8_else; i++)
2975 struct coding_system *this = &(coding_categories[i]);
2976 Lisp_Object attrs, val;
2978 if (this->id < 0)
2979 continue;
2980 attrs = CODING_ID_ATTRS (this->id);
2981 if (CODING_ISO_FLAGS (this) & CODING_ISO_FLAG_FULL_SUPPORT
2982 && ! EQ (CODING_ATTR_CHARSET_LIST (attrs), Viso_2022_charset_list))
2983 setup_iso_safe_charsets (attrs);
2984 val = CODING_ATTR_SAFE_CHARSETS (attrs);
2985 this->max_charset_id = SCHARS (val) - 1;
2986 this->safe_charsets = SDATA (val);
2989 /* A coding system of this category is always ASCII compatible. */
2990 src += coding->head_ascii;
2992 while (rejected != CATEGORY_MASK_ISO)
2994 src_base = src;
2995 ONE_MORE_BYTE (c);
2996 switch (c)
2998 case ISO_CODE_ESC:
2999 if (inhibit_iso_escape_detection)
3000 break;
3001 single_shifting = 0;
3002 ONE_MORE_BYTE (c);
3003 if (c == 'N' || c == 'O')
3005 /* ESC <Fe> for SS2 or SS3. */
3006 single_shifting = 1;
3007 rejected |= CATEGORY_MASK_ISO_7BIT | CATEGORY_MASK_ISO_8BIT;
3009 else if (c == '1')
3011 /* End of composition. */
3012 if (composition_count < 0
3013 || composition_count > MAX_COMPOSITION_COMPONENTS)
3014 /* Invalid */
3015 break;
3016 composition_count = -1;
3017 found |= CATEGORY_MASK_ISO;
3019 else if (c >= '0' && c <= '4')
3021 /* ESC <Fp> for start/end composition. */
3022 composition_count = 0;
3024 else
3026 if (c >= '(' && c <= '/')
3028 /* Designation sequence for a charset of dimension 1. */
3029 ONE_MORE_BYTE (c1);
3030 if (c1 < ' ' || c1 >= 0x80
3031 || (id = iso_charset_table[0][c >= ','][c1]) < 0)
3033 /* Invalid designation sequence. Just ignore. */
3034 if (c1 >= 0x80)
3035 rejected |= (CATEGORY_MASK_ISO_7BIT
3036 | CATEGORY_MASK_ISO_7_ELSE);
3037 break;
3040 else if (c == '$')
3042 /* Designation sequence for a charset of dimension 2. */
3043 ONE_MORE_BYTE (c);
3044 if (c >= '@' && c <= 'B')
3045 /* Designation for JISX0208.1978, GB2312, or JISX0208. */
3046 id = iso_charset_table[1][0][c];
3047 else if (c >= '(' && c <= '/')
3049 ONE_MORE_BYTE (c1);
3050 if (c1 < ' ' || c1 >= 0x80
3051 || (id = iso_charset_table[1][c >= ','][c1]) < 0)
3053 /* Invalid designation sequence. Just ignore. */
3054 if (c1 >= 0x80)
3055 rejected |= (CATEGORY_MASK_ISO_7BIT
3056 | CATEGORY_MASK_ISO_7_ELSE);
3057 break;
3060 else
3062 /* Invalid designation sequence. Just ignore it. */
3063 if (c >= 0x80)
3064 rejected |= (CATEGORY_MASK_ISO_7BIT
3065 | CATEGORY_MASK_ISO_7_ELSE);
3066 break;
3069 else
3071 /* Invalid escape sequence. Just ignore it. */
3072 if (c >= 0x80)
3073 rejected |= (CATEGORY_MASK_ISO_7BIT
3074 | CATEGORY_MASK_ISO_7_ELSE);
3075 break;
3078 /* We found a valid designation sequence for CHARSET. */
3079 rejected |= CATEGORY_MASK_ISO_8BIT;
3080 if (SAFE_CHARSET_P (&coding_categories[coding_category_iso_7],
3081 id))
3082 found |= CATEGORY_MASK_ISO_7;
3083 else
3084 rejected |= CATEGORY_MASK_ISO_7;
3085 if (SAFE_CHARSET_P (&coding_categories[coding_category_iso_7_tight],
3086 id))
3087 found |= CATEGORY_MASK_ISO_7_TIGHT;
3088 else
3089 rejected |= CATEGORY_MASK_ISO_7_TIGHT;
3090 if (SAFE_CHARSET_P (&coding_categories[coding_category_iso_7_else],
3091 id))
3092 found |= CATEGORY_MASK_ISO_7_ELSE;
3093 else
3094 rejected |= CATEGORY_MASK_ISO_7_ELSE;
3095 if (SAFE_CHARSET_P (&coding_categories[coding_category_iso_8_else],
3096 id))
3097 found |= CATEGORY_MASK_ISO_8_ELSE;
3098 else
3099 rejected |= CATEGORY_MASK_ISO_8_ELSE;
3101 break;
3103 case ISO_CODE_SO:
3104 case ISO_CODE_SI:
3105 /* Locking shift out/in. */
3106 if (inhibit_iso_escape_detection)
3107 break;
3108 single_shifting = 0;
3109 rejected |= CATEGORY_MASK_ISO_7BIT | CATEGORY_MASK_ISO_8BIT;
3110 break;
3112 case ISO_CODE_CSI:
3113 /* Control sequence introducer. */
3114 single_shifting = 0;
3115 rejected |= CATEGORY_MASK_ISO_7BIT | CATEGORY_MASK_ISO_7_ELSE;
3116 found |= CATEGORY_MASK_ISO_8_ELSE;
3117 goto check_extra_latin;
3119 case ISO_CODE_SS2:
3120 case ISO_CODE_SS3:
3121 /* Single shift. */
3122 if (inhibit_iso_escape_detection)
3123 break;
3124 single_shifting = 0;
3125 rejected |= CATEGORY_MASK_ISO_7BIT | CATEGORY_MASK_ISO_7_ELSE;
3126 if (CODING_ISO_FLAGS (&coding_categories[coding_category_iso_8_1])
3127 & CODING_ISO_FLAG_SINGLE_SHIFT)
3129 found |= CATEGORY_MASK_ISO_8_1;
3130 single_shifting = 1;
3132 if (CODING_ISO_FLAGS (&coding_categories[coding_category_iso_8_2])
3133 & CODING_ISO_FLAG_SINGLE_SHIFT)
3135 found |= CATEGORY_MASK_ISO_8_2;
3136 single_shifting = 1;
3138 if (single_shifting)
3139 break;
3140 goto check_extra_latin;
3142 default:
3143 if (c < 0)
3144 continue;
3145 if (c < 0x80)
3147 if (composition_count >= 0)
3148 composition_count++;
3149 single_shifting = 0;
3150 break;
3152 rejected |= CATEGORY_MASK_ISO_7BIT | CATEGORY_MASK_ISO_7_ELSE;
3153 if (c >= 0xA0)
3155 found |= CATEGORY_MASK_ISO_8_1;
3156 /* Check the length of succeeding codes of the range
3157 0xA0..0FF. If the byte length is even, we include
3158 CATEGORY_MASK_ISO_8_2 in `found'. We can check this
3159 only when we are not single shifting. */
3160 if (! single_shifting
3161 && ! (rejected & CATEGORY_MASK_ISO_8_2))
3163 ptrdiff_t len = 1;
3164 while (src < src_end)
3166 src_base = src;
3167 ONE_MORE_BYTE (c);
3168 if (c < 0xA0)
3170 src = src_base;
3171 break;
3173 len++;
3176 if (len & 1 && src < src_end)
3178 rejected |= CATEGORY_MASK_ISO_8_2;
3179 if (composition_count >= 0)
3180 composition_count += len;
3182 else
3184 found |= CATEGORY_MASK_ISO_8_2;
3185 if (composition_count >= 0)
3186 composition_count += len / 2;
3189 break;
3191 check_extra_latin:
3192 if (! VECTORP (Vlatin_extra_code_table)
3193 || NILP (AREF (Vlatin_extra_code_table, c)))
3195 rejected = CATEGORY_MASK_ISO;
3196 break;
3198 if (CODING_ISO_FLAGS (&coding_categories[coding_category_iso_8_1])
3199 & CODING_ISO_FLAG_LATIN_EXTRA)
3200 found |= CATEGORY_MASK_ISO_8_1;
3201 else
3202 rejected |= CATEGORY_MASK_ISO_8_1;
3203 rejected |= CATEGORY_MASK_ISO_8_2;
3204 break;
3207 detect_info->rejected |= CATEGORY_MASK_ISO;
3208 return 0;
3210 no_more_source:
3211 detect_info->rejected |= rejected;
3212 detect_info->found |= (found & ~rejected);
3213 return 1;
3217 /* Set designation state into CODING. Set CHARS_96 to -1 if the
3218 escape sequence should be kept. */
3219 #define DECODE_DESIGNATION(reg, dim, chars_96, final) \
3220 do { \
3221 int id, prev; \
3223 if (final < '0' || final >= 128 \
3224 || ((id = ISO_CHARSET_TABLE (dim, chars_96, final)) < 0) \
3225 || !SAFE_CHARSET_P (coding, id)) \
3227 CODING_ISO_DESIGNATION (coding, reg) = -2; \
3228 chars_96 = -1; \
3229 break; \
3231 prev = CODING_ISO_DESIGNATION (coding, reg); \
3232 if (id == charset_jisx0201_roman) \
3234 if (CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_USE_ROMAN) \
3235 id = charset_ascii; \
3237 else if (id == charset_jisx0208_1978) \
3239 if (CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_USE_OLDJIS) \
3240 id = charset_jisx0208; \
3242 CODING_ISO_DESIGNATION (coding, reg) = id; \
3243 /* If there was an invalid designation to REG previously, and this \
3244 designation is ASCII to REG, we should keep this designation \
3245 sequence. */ \
3246 if (prev == -2 && id == charset_ascii) \
3247 chars_96 = -1; \
3248 } while (0)
3251 /* Handle these composition sequence (ALT: alternate char):
3253 (1) relative composition: ESC 0 CHAR ... ESC 1
3254 (2) rulebase composition: ESC 2 CHAR RULE CHAR RULE ... CHAR ESC 1
3255 (3) altchar composition: ESC 3 ALT ... ALT ESC 0 CHAR ... ESC 1
3256 (4) alt&rule composition: ESC 4 ALT RULE ... ALT ESC 0 CHAR ... ESC 1
3258 When the start sequence (ESC 0/2/3/4) is found, this annotation
3259 header is produced.
3261 [ -LENGTH(==-5) CODING_ANNOTATE_COMPOSITION_MASK NCHARS(==0) 0 METHOD ]
3263 Then, upon reading CHAR or RULE (one or two bytes), these codes are
3264 produced until the end sequence (ESC 1) is found:
3266 (1) CHAR ... CHAR
3267 (2) CHAR -2 DECODED-RULE CHAR -2 DECODED-RULE ... CHAR
3268 (3) ALT ... ALT -1 -1 CHAR ... CHAR
3269 (4) ALT -2 DECODED-RULE ALT -2 DECODED-RULE ... ALT -1 -1 CHAR ... CHAR
3271 When the end sequence (ESC 1) is found, LENGTH and NCHARS in the
3272 annotation header is updated as below:
3274 (1) LENGTH: unchanged, NCHARS: number of CHARs
3275 (2) LENGTH: unchanged, NCHARS: number of CHARs
3276 (3) LENGTH: += number of ALTs + 2, NCHARS: number of CHARs
3277 (4) LENGTH: += number of ALTs * 3, NCHARS: number of CHARs
3279 If an error is found while composing, the annotation header is
3280 changed to:
3282 [ ESC '0'/'2'/'3'/'4' -2 0 ]
3284 and the sequence [ -2 DECODED-RULE ] is changed to the original
3285 byte sequence as below:
3286 o the original byte sequence is B: [ B -1 ]
3287 o the original byte sequence is B1 B2: [ B1 B2 ]
3288 and the sequence [ -1 -1 ] is changed to the original byte
3289 sequence:
3290 [ ESC '0' ]
3293 /* Decode a composition rule C1 and maybe one more byte from the
3294 source, and set RULE to the encoded composition rule. If the rule
3295 is invalid, goto invalid_code. */
3297 #define DECODE_COMPOSITION_RULE(rule) \
3298 do { \
3299 rule = c1 - 32; \
3300 if (rule < 0) \
3301 goto invalid_code; \
3302 if (rule < 81) /* old format (before ver.21) */ \
3304 int gref = (rule) / 9; \
3305 int nref = (rule) % 9; \
3306 if (gref == 4) gref = 10; \
3307 if (nref == 4) nref = 10; \
3308 rule = COMPOSITION_ENCODE_RULE (gref, nref); \
3310 else /* new format (after ver.21) */ \
3312 int b; \
3314 ONE_MORE_BYTE (b); \
3315 if (! COMPOSITION_ENCODE_RULE_VALID (rule - 81, b - 32)) \
3316 goto invalid_code; \
3317 rule = COMPOSITION_ENCODE_RULE (rule - 81, b - 32); \
3318 rule += 0x100; /* Distinguish it from the old format. */ \
3320 } while (0)
3322 #define ENCODE_COMPOSITION_RULE(rule) \
3323 do { \
3324 int gref = (rule % 0x100) / 12, nref = (rule % 0x100) % 12; \
3326 if (rule < 0x100) /* old format */ \
3328 if (gref == 10) gref = 4; \
3329 if (nref == 10) nref = 4; \
3330 charbuf[idx] = 32 + gref * 9 + nref; \
3331 charbuf[idx + 1] = -1; \
3332 new_chars++; \
3334 else /* new format */ \
3336 charbuf[idx] = 32 + 81 + gref; \
3337 charbuf[idx + 1] = 32 + nref; \
3338 new_chars += 2; \
3340 } while (0)
3342 /* Finish the current composition as invalid. */
3344 static int
3345 finish_composition (int *charbuf, struct composition_status *cmp_status)
3347 int idx = - cmp_status->length;
3348 int new_chars;
3350 /* Recover the original ESC sequence */
3351 charbuf[idx++] = ISO_CODE_ESC;
3352 charbuf[idx++] = (cmp_status->method == COMPOSITION_RELATIVE ? '0'
3353 : cmp_status->method == COMPOSITION_WITH_RULE ? '2'
3354 : cmp_status->method == COMPOSITION_WITH_ALTCHARS ? '3'
3355 /* cmp_status->method == COMPOSITION_WITH_RULE_ALTCHARS */
3356 : '4');
3357 charbuf[idx++] = -2;
3358 charbuf[idx++] = 0;
3359 charbuf[idx++] = -1;
3360 new_chars = cmp_status->nchars;
3361 if (cmp_status->method >= COMPOSITION_WITH_RULE)
3362 for (; idx < 0; idx++)
3364 int elt = charbuf[idx];
3366 if (elt == -2)
3368 ENCODE_COMPOSITION_RULE (charbuf[idx + 1]);
3369 idx++;
3371 else if (elt == -1)
3373 charbuf[idx++] = ISO_CODE_ESC;
3374 charbuf[idx] = '0';
3375 new_chars += 2;
3378 cmp_status->state = COMPOSING_NO;
3379 return new_chars;
3382 /* If characters are under composition, finish the composition. */
3383 #define MAYBE_FINISH_COMPOSITION() \
3384 do { \
3385 if (cmp_status->state != COMPOSING_NO) \
3386 char_offset += finish_composition (charbuf, cmp_status); \
3387 } while (0)
3389 /* Handle composition start sequence ESC 0, ESC 2, ESC 3, or ESC 4.
3391 ESC 0 : relative composition : ESC 0 CHAR ... ESC 1
3392 ESC 2 : rulebase composition : ESC 2 CHAR RULE CHAR RULE ... CHAR ESC 1
3393 ESC 3 : altchar composition : ESC 3 CHAR ... ESC 0 CHAR ... ESC 1
3394 ESC 4 : alt&rule composition : ESC 4 CHAR RULE ... CHAR ESC 0 CHAR ... ESC 1
3396 Produce this annotation sequence now:
3398 [ -LENGTH(==-4) CODING_ANNOTATE_COMPOSITION_MASK NCHARS(==0) METHOD ]
3401 #define DECODE_COMPOSITION_START(c1) \
3402 do { \
3403 if (c1 == '0' \
3404 && ((cmp_status->state == COMPOSING_COMPONENT_CHAR \
3405 && cmp_status->method == COMPOSITION_WITH_ALTCHARS) \
3406 || (cmp_status->state == COMPOSING_COMPONENT_RULE \
3407 && cmp_status->method == COMPOSITION_WITH_RULE_ALTCHARS))) \
3409 *charbuf++ = -1; \
3410 *charbuf++= -1; \
3411 cmp_status->state = COMPOSING_CHAR; \
3412 cmp_status->length += 2; \
3414 else \
3416 MAYBE_FINISH_COMPOSITION (); \
3417 cmp_status->method = (c1 == '0' ? COMPOSITION_RELATIVE \
3418 : c1 == '2' ? COMPOSITION_WITH_RULE \
3419 : c1 == '3' ? COMPOSITION_WITH_ALTCHARS \
3420 : COMPOSITION_WITH_RULE_ALTCHARS); \
3421 cmp_status->state \
3422 = (c1 <= '2' ? COMPOSING_CHAR : COMPOSING_COMPONENT_CHAR); \
3423 ADD_COMPOSITION_DATA (charbuf, 0, 0, cmp_status->method); \
3424 cmp_status->length = MAX_ANNOTATION_LENGTH; \
3425 cmp_status->nchars = cmp_status->ncomps = 0; \
3426 coding->annotated = 1; \
3428 } while (0)
3431 /* Handle composition end sequence ESC 1. */
3433 #define DECODE_COMPOSITION_END() \
3434 do { \
3435 if (cmp_status->nchars == 0 \
3436 || ((cmp_status->state == COMPOSING_CHAR) \
3437 == (cmp_status->method == COMPOSITION_WITH_RULE))) \
3439 MAYBE_FINISH_COMPOSITION (); \
3440 goto invalid_code; \
3442 if (cmp_status->method == COMPOSITION_WITH_ALTCHARS) \
3443 charbuf[- cmp_status->length] -= cmp_status->ncomps + 2; \
3444 else if (cmp_status->method == COMPOSITION_WITH_RULE_ALTCHARS) \
3445 charbuf[- cmp_status->length] -= cmp_status->ncomps * 3; \
3446 charbuf[- cmp_status->length + 2] = cmp_status->nchars; \
3447 char_offset += cmp_status->nchars; \
3448 cmp_status->state = COMPOSING_NO; \
3449 } while (0)
3451 /* Store a composition rule RULE in charbuf, and update cmp_status. */
3453 #define STORE_COMPOSITION_RULE(rule) \
3454 do { \
3455 *charbuf++ = -2; \
3456 *charbuf++ = rule; \
3457 cmp_status->length += 2; \
3458 cmp_status->state--; \
3459 } while (0)
3461 /* Store a composed char or a component char C in charbuf, and update
3462 cmp_status. */
3464 #define STORE_COMPOSITION_CHAR(c) \
3465 do { \
3466 *charbuf++ = (c); \
3467 cmp_status->length++; \
3468 if (cmp_status->state == COMPOSING_CHAR) \
3469 cmp_status->nchars++; \
3470 else \
3471 cmp_status->ncomps++; \
3472 if (cmp_status->method == COMPOSITION_WITH_RULE \
3473 || (cmp_status->method == COMPOSITION_WITH_RULE_ALTCHARS \
3474 && cmp_status->state == COMPOSING_COMPONENT_CHAR)) \
3475 cmp_status->state++; \
3476 } while (0)
3479 /* See the above "GENERAL NOTES on `decode_coding_XXX ()' functions". */
3481 static void
3482 decode_coding_iso_2022 (struct coding_system *coding)
3484 const unsigned char *src = coding->source + coding->consumed;
3485 const unsigned char *src_end = coding->source + coding->src_bytes;
3486 const unsigned char *src_base;
3487 int *charbuf = coding->charbuf + coding->charbuf_used;
3488 /* We may produce two annotations (charset and composition) in one
3489 loop and one more charset annotation at the end. */
3490 int *charbuf_end
3491 = coding->charbuf + coding->charbuf_size - (MAX_ANNOTATION_LENGTH * 3);
3492 ptrdiff_t consumed_chars = 0, consumed_chars_base;
3493 bool multibytep = coding->src_multibyte;
3494 /* Charsets invoked to graphic plane 0 and 1 respectively. */
3495 int charset_id_0 = CODING_ISO_INVOKED_CHARSET (coding, 0);
3496 int charset_id_1 = CODING_ISO_INVOKED_CHARSET (coding, 1);
3497 int charset_id_2, charset_id_3;
3498 struct charset *charset;
3499 int c;
3500 struct composition_status *cmp_status = CODING_ISO_CMP_STATUS (coding);
3501 Lisp_Object attrs = CODING_ID_ATTRS (coding->id);
3502 ptrdiff_t char_offset = coding->produced_char;
3503 ptrdiff_t last_offset = char_offset;
3504 int last_id = charset_ascii;
3505 bool eol_dos
3506 = !inhibit_eol_conversion && EQ (CODING_ID_EOL_TYPE (coding->id), Qdos);
3507 int byte_after_cr = -1;
3508 int i;
3510 setup_iso_safe_charsets (attrs);
3511 coding->safe_charsets = SDATA (CODING_ATTR_SAFE_CHARSETS (attrs));
3513 if (cmp_status->state != COMPOSING_NO)
3515 if (charbuf_end - charbuf < cmp_status->length)
3516 emacs_abort ();
3517 for (i = 0; i < cmp_status->length; i++)
3518 *charbuf++ = cmp_status->carryover[i];
3519 coding->annotated = 1;
3522 while (1)
3524 int c1, c2, c3;
3526 src_base = src;
3527 consumed_chars_base = consumed_chars;
3529 if (charbuf >= charbuf_end)
3531 if (byte_after_cr >= 0)
3532 src_base--;
3533 break;
3536 if (byte_after_cr >= 0)
3537 c1 = byte_after_cr, byte_after_cr = -1;
3538 else
3539 ONE_MORE_BYTE (c1);
3540 if (c1 < 0)
3541 goto invalid_code;
3543 if (CODING_ISO_EXTSEGMENT_LEN (coding) > 0)
3545 *charbuf++ = ASCII_CHAR_P (c1) ? c1 : BYTE8_TO_CHAR (c1);
3546 char_offset++;
3547 CODING_ISO_EXTSEGMENT_LEN (coding)--;
3548 continue;
3551 if (CODING_ISO_EMBEDDED_UTF_8 (coding))
3553 if (c1 == ISO_CODE_ESC)
3555 if (src + 1 >= src_end)
3556 goto no_more_source;
3557 *charbuf++ = ISO_CODE_ESC;
3558 char_offset++;
3559 if (src[0] == '%' && src[1] == '@')
3561 src += 2;
3562 consumed_chars += 2;
3563 char_offset += 2;
3564 /* We are sure charbuf can contain two more chars. */
3565 *charbuf++ = '%';
3566 *charbuf++ = '@';
3567 CODING_ISO_EMBEDDED_UTF_8 (coding) = 0;
3570 else
3572 *charbuf++ = ASCII_CHAR_P (c1) ? c1 : BYTE8_TO_CHAR (c1);
3573 char_offset++;
3575 continue;
3578 if ((cmp_status->state == COMPOSING_RULE
3579 || cmp_status->state == COMPOSING_COMPONENT_RULE)
3580 && c1 != ISO_CODE_ESC)
3582 int rule;
3584 DECODE_COMPOSITION_RULE (rule);
3585 STORE_COMPOSITION_RULE (rule);
3586 continue;
3589 /* We produce at most one character. */
3590 switch (iso_code_class [c1])
3592 case ISO_0x20_or_0x7F:
3593 if (charset_id_0 < 0
3594 || ! CHARSET_ISO_CHARS_96 (CHARSET_FROM_ID (charset_id_0)))
3595 /* This is SPACE or DEL. */
3596 charset = CHARSET_FROM_ID (charset_ascii);
3597 else
3598 charset = CHARSET_FROM_ID (charset_id_0);
3599 break;
3601 case ISO_graphic_plane_0:
3602 if (charset_id_0 < 0)
3603 charset = CHARSET_FROM_ID (charset_ascii);
3604 else
3605 charset = CHARSET_FROM_ID (charset_id_0);
3606 break;
3608 case ISO_0xA0_or_0xFF:
3609 if (charset_id_1 < 0
3610 || ! CHARSET_ISO_CHARS_96 (CHARSET_FROM_ID (charset_id_1))
3611 || CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_SEVEN_BITS)
3612 goto invalid_code;
3613 /* This is a graphic character, we fall down ... */
3615 case ISO_graphic_plane_1:
3616 if (charset_id_1 < 0)
3617 goto invalid_code;
3618 charset = CHARSET_FROM_ID (charset_id_1);
3619 break;
3621 case ISO_control_0:
3622 if (eol_dos && c1 == '\r')
3623 ONE_MORE_BYTE (byte_after_cr);
3624 MAYBE_FINISH_COMPOSITION ();
3625 charset = CHARSET_FROM_ID (charset_ascii);
3626 break;
3628 case ISO_control_1:
3629 goto invalid_code;
3631 case ISO_shift_out:
3632 if (! (CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_LOCKING_SHIFT)
3633 || CODING_ISO_DESIGNATION (coding, 1) < 0)
3634 goto invalid_code;
3635 CODING_ISO_INVOCATION (coding, 0) = 1;
3636 charset_id_0 = CODING_ISO_INVOKED_CHARSET (coding, 0);
3637 continue;
3639 case ISO_shift_in:
3640 if (! (CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_LOCKING_SHIFT))
3641 goto invalid_code;
3642 CODING_ISO_INVOCATION (coding, 0) = 0;
3643 charset_id_0 = CODING_ISO_INVOKED_CHARSET (coding, 0);
3644 continue;
3646 case ISO_single_shift_2_7:
3647 if (! (CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_SEVEN_BITS))
3648 goto invalid_code;
3649 case ISO_single_shift_2:
3650 if (! (CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_SINGLE_SHIFT))
3651 goto invalid_code;
3652 /* SS2 is handled as an escape sequence of ESC 'N' */
3653 c1 = 'N';
3654 goto label_escape_sequence;
3656 case ISO_single_shift_3:
3657 if (! (CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_SINGLE_SHIFT))
3658 goto invalid_code;
3659 /* SS2 is handled as an escape sequence of ESC 'O' */
3660 c1 = 'O';
3661 goto label_escape_sequence;
3663 case ISO_control_sequence_introducer:
3664 /* CSI is handled as an escape sequence of ESC '[' ... */
3665 c1 = '[';
3666 goto label_escape_sequence;
3668 case ISO_escape:
3669 ONE_MORE_BYTE (c1);
3670 label_escape_sequence:
3671 /* Escape sequences handled here are invocation,
3672 designation, direction specification, and character
3673 composition specification. */
3674 switch (c1)
3676 case '&': /* revision of following character set */
3677 ONE_MORE_BYTE (c1);
3678 if (!(c1 >= '@' && c1 <= '~'))
3679 goto invalid_code;
3680 ONE_MORE_BYTE (c1);
3681 if (c1 != ISO_CODE_ESC)
3682 goto invalid_code;
3683 ONE_MORE_BYTE (c1);
3684 goto label_escape_sequence;
3686 case '$': /* designation of 2-byte character set */
3687 if (! (CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_DESIGNATION))
3688 goto invalid_code;
3690 int reg, chars96;
3692 ONE_MORE_BYTE (c1);
3693 if (c1 >= '@' && c1 <= 'B')
3694 { /* designation of JISX0208.1978, GB2312.1980,
3695 or JISX0208.1980 */
3696 reg = 0, chars96 = 0;
3698 else if (c1 >= 0x28 && c1 <= 0x2B)
3699 { /* designation of DIMENSION2_CHARS94 character set */
3700 reg = c1 - 0x28, chars96 = 0;
3701 ONE_MORE_BYTE (c1);
3703 else if (c1 >= 0x2C && c1 <= 0x2F)
3704 { /* designation of DIMENSION2_CHARS96 character set */
3705 reg = c1 - 0x2C, chars96 = 1;
3706 ONE_MORE_BYTE (c1);
3708 else
3709 goto invalid_code;
3710 DECODE_DESIGNATION (reg, 2, chars96, c1);
3711 /* We must update these variables now. */
3712 if (reg == 0)
3713 charset_id_0 = CODING_ISO_INVOKED_CHARSET (coding, 0);
3714 else if (reg == 1)
3715 charset_id_1 = CODING_ISO_INVOKED_CHARSET (coding, 1);
3716 if (chars96 < 0)
3717 goto invalid_code;
3719 continue;
3721 case 'n': /* invocation of locking-shift-2 */
3722 if (! (CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_LOCKING_SHIFT)
3723 || CODING_ISO_DESIGNATION (coding, 2) < 0)
3724 goto invalid_code;
3725 CODING_ISO_INVOCATION (coding, 0) = 2;
3726 charset_id_0 = CODING_ISO_INVOKED_CHARSET (coding, 0);
3727 continue;
3729 case 'o': /* invocation of locking-shift-3 */
3730 if (! (CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_LOCKING_SHIFT)
3731 || CODING_ISO_DESIGNATION (coding, 3) < 0)
3732 goto invalid_code;
3733 CODING_ISO_INVOCATION (coding, 0) = 3;
3734 charset_id_0 = CODING_ISO_INVOKED_CHARSET (coding, 0);
3735 continue;
3737 case 'N': /* invocation of single-shift-2 */
3738 if (! (CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_SINGLE_SHIFT)
3739 || CODING_ISO_DESIGNATION (coding, 2) < 0)
3740 goto invalid_code;
3741 charset_id_2 = CODING_ISO_DESIGNATION (coding, 2);
3742 if (charset_id_2 < 0)
3743 charset = CHARSET_FROM_ID (charset_ascii);
3744 else
3745 charset = CHARSET_FROM_ID (charset_id_2);
3746 ONE_MORE_BYTE (c1);
3747 if (c1 < 0x20 || (c1 >= 0x80 && c1 < 0xA0)
3748 || (! (CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_SEVEN_BITS)
3749 && ((CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_LEVEL_4)
3750 ? c1 >= 0x80 : c1 < 0x80)))
3751 goto invalid_code;
3752 break;
3754 case 'O': /* invocation of single-shift-3 */
3755 if (! (CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_SINGLE_SHIFT)
3756 || CODING_ISO_DESIGNATION (coding, 3) < 0)
3757 goto invalid_code;
3758 charset_id_3 = CODING_ISO_DESIGNATION (coding, 3);
3759 if (charset_id_3 < 0)
3760 charset = CHARSET_FROM_ID (charset_ascii);
3761 else
3762 charset = CHARSET_FROM_ID (charset_id_3);
3763 ONE_MORE_BYTE (c1);
3764 if (c1 < 0x20 || (c1 >= 0x80 && c1 < 0xA0)
3765 || (! (CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_SEVEN_BITS)
3766 && ((CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_LEVEL_4)
3767 ? c1 >= 0x80 : c1 < 0x80)))
3768 goto invalid_code;
3769 break;
3771 case '0': case '2': case '3': case '4': /* start composition */
3772 if (! (coding->common_flags & CODING_ANNOTATE_COMPOSITION_MASK))
3773 goto invalid_code;
3774 if (last_id != charset_ascii)
3776 ADD_CHARSET_DATA (charbuf, char_offset- last_offset, last_id);
3777 last_id = charset_ascii;
3778 last_offset = char_offset;
3780 DECODE_COMPOSITION_START (c1);
3781 continue;
3783 case '1': /* end composition */
3784 if (cmp_status->state == COMPOSING_NO)
3785 goto invalid_code;
3786 DECODE_COMPOSITION_END ();
3787 continue;
3789 case '[': /* specification of direction */
3790 if (! (CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_DIRECTION))
3791 goto invalid_code;
3792 /* For the moment, nested direction is not supported.
3793 So, `coding->mode & CODING_MODE_DIRECTION' zero means
3794 left-to-right, and nonzero means right-to-left. */
3795 ONE_MORE_BYTE (c1);
3796 switch (c1)
3798 case ']': /* end of the current direction */
3799 coding->mode &= ~CODING_MODE_DIRECTION;
3801 case '0': /* end of the current direction */
3802 case '1': /* start of left-to-right direction */
3803 ONE_MORE_BYTE (c1);
3804 if (c1 == ']')
3805 coding->mode &= ~CODING_MODE_DIRECTION;
3806 else
3807 goto invalid_code;
3808 break;
3810 case '2': /* start of right-to-left direction */
3811 ONE_MORE_BYTE (c1);
3812 if (c1 == ']')
3813 coding->mode |= CODING_MODE_DIRECTION;
3814 else
3815 goto invalid_code;
3816 break;
3818 default:
3819 goto invalid_code;
3821 continue;
3823 case '%':
3824 ONE_MORE_BYTE (c1);
3825 if (c1 == '/')
3827 /* CTEXT extended segment:
3828 ESC % / [0-4] M L --ENCODING-NAME-- \002 --BYTES--
3829 We keep these bytes as is for the moment.
3830 They may be decoded by post-read-conversion. */
3831 int dim, M, L;
3832 int size;
3834 ONE_MORE_BYTE (dim);
3835 if (dim < '0' || dim > '4')
3836 goto invalid_code;
3837 ONE_MORE_BYTE (M);
3838 if (M < 128)
3839 goto invalid_code;
3840 ONE_MORE_BYTE (L);
3841 if (L < 128)
3842 goto invalid_code;
3843 size = ((M - 128) * 128) + (L - 128);
3844 if (charbuf + 6 > charbuf_end)
3845 goto break_loop;
3846 *charbuf++ = ISO_CODE_ESC;
3847 *charbuf++ = '%';
3848 *charbuf++ = '/';
3849 *charbuf++ = dim;
3850 *charbuf++ = BYTE8_TO_CHAR (M);
3851 *charbuf++ = BYTE8_TO_CHAR (L);
3852 CODING_ISO_EXTSEGMENT_LEN (coding) = size;
3854 else if (c1 == 'G')
3856 /* XFree86 extension for embedding UTF-8 in CTEXT:
3857 ESC % G --UTF-8-BYTES-- ESC % @
3858 We keep these bytes as is for the moment.
3859 They may be decoded by post-read-conversion. */
3860 if (charbuf + 3 > charbuf_end)
3861 goto break_loop;
3862 *charbuf++ = ISO_CODE_ESC;
3863 *charbuf++ = '%';
3864 *charbuf++ = 'G';
3865 CODING_ISO_EMBEDDED_UTF_8 (coding) = 1;
3867 else
3868 goto invalid_code;
3869 continue;
3870 break;
3872 default:
3873 if (! (CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_DESIGNATION))
3874 goto invalid_code;
3876 int reg, chars96;
3878 if (c1 >= 0x28 && c1 <= 0x2B)
3879 { /* designation of DIMENSION1_CHARS94 character set */
3880 reg = c1 - 0x28, chars96 = 0;
3881 ONE_MORE_BYTE (c1);
3883 else if (c1 >= 0x2C && c1 <= 0x2F)
3884 { /* designation of DIMENSION1_CHARS96 character set */
3885 reg = c1 - 0x2C, chars96 = 1;
3886 ONE_MORE_BYTE (c1);
3888 else
3889 goto invalid_code;
3890 DECODE_DESIGNATION (reg, 1, chars96, c1);
3891 /* We must update these variables now. */
3892 if (reg == 0)
3893 charset_id_0 = CODING_ISO_INVOKED_CHARSET (coding, 0);
3894 else if (reg == 1)
3895 charset_id_1 = CODING_ISO_INVOKED_CHARSET (coding, 1);
3896 if (chars96 < 0)
3897 goto invalid_code;
3899 continue;
3901 break;
3903 default:
3904 emacs_abort ();
3907 if (cmp_status->state == COMPOSING_NO
3908 && charset->id != charset_ascii
3909 && last_id != charset->id)
3911 if (last_id != charset_ascii)
3912 ADD_CHARSET_DATA (charbuf, char_offset - last_offset, last_id);
3913 last_id = charset->id;
3914 last_offset = char_offset;
3917 /* Now we know CHARSET and 1st position code C1 of a character.
3918 Produce a decoded character while getting 2nd and 3rd
3919 position codes C2, C3 if necessary. */
3920 if (CHARSET_DIMENSION (charset) > 1)
3922 ONE_MORE_BYTE (c2);
3923 if (c2 < 0x20 || (c2 >= 0x80 && c2 < 0xA0)
3924 || ((c1 & 0x80) != (c2 & 0x80)))
3925 /* C2 is not in a valid range. */
3926 goto invalid_code;
3927 if (CHARSET_DIMENSION (charset) == 2)
3928 c1 = (c1 << 8) | c2;
3929 else
3931 ONE_MORE_BYTE (c3);
3932 if (c3 < 0x20 || (c3 >= 0x80 && c3 < 0xA0)
3933 || ((c1 & 0x80) != (c3 & 0x80)))
3934 /* C3 is not in a valid range. */
3935 goto invalid_code;
3936 c1 = (c1 << 16) | (c2 << 8) | c2;
3939 c1 &= 0x7F7F7F;
3940 CODING_DECODE_CHAR (coding, src, src_base, src_end, charset, c1, c);
3941 if (c < 0)
3943 MAYBE_FINISH_COMPOSITION ();
3944 for (; src_base < src; src_base++, char_offset++)
3946 if (ASCII_CHAR_P (*src_base))
3947 *charbuf++ = *src_base;
3948 else
3949 *charbuf++ = BYTE8_TO_CHAR (*src_base);
3952 else if (cmp_status->state == COMPOSING_NO)
3954 *charbuf++ = c;
3955 char_offset++;
3957 else if ((cmp_status->state == COMPOSING_CHAR
3958 ? cmp_status->nchars
3959 : cmp_status->ncomps)
3960 >= MAX_COMPOSITION_COMPONENTS)
3962 /* Too long composition. */
3963 MAYBE_FINISH_COMPOSITION ();
3964 *charbuf++ = c;
3965 char_offset++;
3967 else
3968 STORE_COMPOSITION_CHAR (c);
3969 continue;
3971 invalid_code:
3972 MAYBE_FINISH_COMPOSITION ();
3973 src = src_base;
3974 consumed_chars = consumed_chars_base;
3975 ONE_MORE_BYTE (c);
3976 *charbuf++ = c < 0 ? -c : ASCII_CHAR_P (c) ? c : BYTE8_TO_CHAR (c);
3977 char_offset++;
3978 /* Reset the invocation and designation status to the safest
3979 one; i.e. designate ASCII to the graphic register 0, and
3980 invoke that register to the graphic plane 0. This typically
3981 helps the case that an designation sequence for ASCII "ESC (
3982 B" is somehow broken (e.g. broken by a newline). */
3983 CODING_ISO_INVOCATION (coding, 0) = 0;
3984 CODING_ISO_DESIGNATION (coding, 0) = charset_ascii;
3985 charset_id_0 = charset_ascii;
3986 continue;
3988 break_loop:
3989 break;
3992 no_more_source:
3993 if (cmp_status->state != COMPOSING_NO)
3995 if (coding->mode & CODING_MODE_LAST_BLOCK)
3996 MAYBE_FINISH_COMPOSITION ();
3997 else
3999 charbuf -= cmp_status->length;
4000 for (i = 0; i < cmp_status->length; i++)
4001 cmp_status->carryover[i] = charbuf[i];
4004 else if (last_id != charset_ascii)
4005 ADD_CHARSET_DATA (charbuf, char_offset - last_offset, last_id);
4006 coding->consumed_char += consumed_chars_base;
4007 coding->consumed = src_base - coding->source;
4008 coding->charbuf_used = charbuf - coding->charbuf;
4012 /* ISO2022 encoding stuff. */
4015 It is not enough to say just "ISO2022" on encoding, we have to
4016 specify more details. In Emacs, each coding system of ISO2022
4017 variant has the following specifications:
4018 1. Initial designation to G0 thru G3.
4019 2. Allows short-form designation?
4020 3. ASCII should be designated to G0 before control characters?
4021 4. ASCII should be designated to G0 at end of line?
4022 5. 7-bit environment or 8-bit environment?
4023 6. Use locking-shift?
4024 7. Use Single-shift?
4025 And the following two are only for Japanese:
4026 8. Use ASCII in place of JIS0201-1976-Roman?
4027 9. Use JISX0208-1983 in place of JISX0208-1978?
4028 These specifications are encoded in CODING_ISO_FLAGS (coding) as flag bits
4029 defined by macros CODING_ISO_FLAG_XXX. See `coding.h' for more
4030 details.
4033 /* Produce codes (escape sequence) for designating CHARSET to graphic
4034 register REG at DST, and increment DST. If <final-char> of CHARSET is
4035 '@', 'A', or 'B' and the coding system CODING allows, produce
4036 designation sequence of short-form. */
4038 #define ENCODE_DESIGNATION(charset, reg, coding) \
4039 do { \
4040 unsigned char final_char = CHARSET_ISO_FINAL (charset); \
4041 const char *intermediate_char_94 = "()*+"; \
4042 const char *intermediate_char_96 = ",-./"; \
4043 int revision = -1; \
4045 if (CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_REVISION) \
4046 revision = CHARSET_ISO_REVISION (charset); \
4048 if (revision >= 0) \
4050 EMIT_TWO_ASCII_BYTES (ISO_CODE_ESC, '&'); \
4051 EMIT_ONE_BYTE ('@' + revision); \
4053 EMIT_ONE_ASCII_BYTE (ISO_CODE_ESC); \
4054 if (CHARSET_DIMENSION (charset) == 1) \
4056 int b; \
4057 if (! CHARSET_ISO_CHARS_96 (charset)) \
4058 b = intermediate_char_94[reg]; \
4059 else \
4060 b = intermediate_char_96[reg]; \
4061 EMIT_ONE_ASCII_BYTE (b); \
4063 else \
4065 EMIT_ONE_ASCII_BYTE ('$'); \
4066 if (! CHARSET_ISO_CHARS_96 (charset)) \
4068 if (CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_LONG_FORM \
4069 || reg != 0 \
4070 || final_char < '@' || final_char > 'B') \
4071 EMIT_ONE_ASCII_BYTE (intermediate_char_94[reg]); \
4073 else \
4074 EMIT_ONE_ASCII_BYTE (intermediate_char_96[reg]); \
4076 EMIT_ONE_ASCII_BYTE (final_char); \
4078 CODING_ISO_DESIGNATION (coding, reg) = CHARSET_ID (charset); \
4079 } while (0)
4082 /* The following two macros produce codes (control character or escape
4083 sequence) for ISO2022 single-shift functions (single-shift-2 and
4084 single-shift-3). */
4086 #define ENCODE_SINGLE_SHIFT_2 \
4087 do { \
4088 if (CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_SEVEN_BITS) \
4089 EMIT_TWO_ASCII_BYTES (ISO_CODE_ESC, 'N'); \
4090 else \
4091 EMIT_ONE_BYTE (ISO_CODE_SS2); \
4092 CODING_ISO_SINGLE_SHIFTING (coding) = 1; \
4093 } while (0)
4096 #define ENCODE_SINGLE_SHIFT_3 \
4097 do { \
4098 if (CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_SEVEN_BITS) \
4099 EMIT_TWO_ASCII_BYTES (ISO_CODE_ESC, 'O'); \
4100 else \
4101 EMIT_ONE_BYTE (ISO_CODE_SS3); \
4102 CODING_ISO_SINGLE_SHIFTING (coding) = 1; \
4103 } while (0)
4106 /* The following four macros produce codes (control character or
4107 escape sequence) for ISO2022 locking-shift functions (shift-in,
4108 shift-out, locking-shift-2, and locking-shift-3). */
4110 #define ENCODE_SHIFT_IN \
4111 do { \
4112 EMIT_ONE_ASCII_BYTE (ISO_CODE_SI); \
4113 CODING_ISO_INVOCATION (coding, 0) = 0; \
4114 } while (0)
4117 #define ENCODE_SHIFT_OUT \
4118 do { \
4119 EMIT_ONE_ASCII_BYTE (ISO_CODE_SO); \
4120 CODING_ISO_INVOCATION (coding, 0) = 1; \
4121 } while (0)
4124 #define ENCODE_LOCKING_SHIFT_2 \
4125 do { \
4126 EMIT_TWO_ASCII_BYTES (ISO_CODE_ESC, 'n'); \
4127 CODING_ISO_INVOCATION (coding, 0) = 2; \
4128 } while (0)
4131 #define ENCODE_LOCKING_SHIFT_3 \
4132 do { \
4133 EMIT_TWO_ASCII_BYTES (ISO_CODE_ESC, 'n'); \
4134 CODING_ISO_INVOCATION (coding, 0) = 3; \
4135 } while (0)
4138 /* Produce codes for a DIMENSION1 character whose character set is
4139 CHARSET and whose position-code is C1. Designation and invocation
4140 sequences are also produced in advance if necessary. */
4142 #define ENCODE_ISO_CHARACTER_DIMENSION1(charset, c1) \
4143 do { \
4144 int id = CHARSET_ID (charset); \
4146 if ((CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_USE_ROMAN) \
4147 && id == charset_ascii) \
4149 id = charset_jisx0201_roman; \
4150 charset = CHARSET_FROM_ID (id); \
4153 if (CODING_ISO_SINGLE_SHIFTING (coding)) \
4155 if (CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_SEVEN_BITS) \
4156 EMIT_ONE_ASCII_BYTE (c1 & 0x7F); \
4157 else \
4158 EMIT_ONE_BYTE (c1 | 0x80); \
4159 CODING_ISO_SINGLE_SHIFTING (coding) = 0; \
4160 break; \
4162 else if (id == CODING_ISO_INVOKED_CHARSET (coding, 0)) \
4164 EMIT_ONE_ASCII_BYTE (c1 & 0x7F); \
4165 break; \
4167 else if (id == CODING_ISO_INVOKED_CHARSET (coding, 1)) \
4169 EMIT_ONE_BYTE (c1 | 0x80); \
4170 break; \
4172 else \
4173 /* Since CHARSET is not yet invoked to any graphic planes, we \
4174 must invoke it, or, at first, designate it to some graphic \
4175 register. Then repeat the loop to actually produce the \
4176 character. */ \
4177 dst = encode_invocation_designation (charset, coding, dst, \
4178 &produced_chars); \
4179 } while (1)
4182 /* Produce codes for a DIMENSION2 character whose character set is
4183 CHARSET and whose position-codes are C1 and C2. Designation and
4184 invocation codes are also produced in advance if necessary. */
4186 #define ENCODE_ISO_CHARACTER_DIMENSION2(charset, c1, c2) \
4187 do { \
4188 int id = CHARSET_ID (charset); \
4190 if ((CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_USE_OLDJIS) \
4191 && id == charset_jisx0208) \
4193 id = charset_jisx0208_1978; \
4194 charset = CHARSET_FROM_ID (id); \
4197 if (CODING_ISO_SINGLE_SHIFTING (coding)) \
4199 if (CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_SEVEN_BITS) \
4200 EMIT_TWO_ASCII_BYTES ((c1) & 0x7F, (c2) & 0x7F); \
4201 else \
4202 EMIT_TWO_BYTES ((c1) | 0x80, (c2) | 0x80); \
4203 CODING_ISO_SINGLE_SHIFTING (coding) = 0; \
4204 break; \
4206 else if (id == CODING_ISO_INVOKED_CHARSET (coding, 0)) \
4208 EMIT_TWO_ASCII_BYTES ((c1) & 0x7F, (c2) & 0x7F); \
4209 break; \
4211 else if (id == CODING_ISO_INVOKED_CHARSET (coding, 1)) \
4213 EMIT_TWO_BYTES ((c1) | 0x80, (c2) | 0x80); \
4214 break; \
4216 else \
4217 /* Since CHARSET is not yet invoked to any graphic planes, we \
4218 must invoke it, or, at first, designate it to some graphic \
4219 register. Then repeat the loop to actually produce the \
4220 character. */ \
4221 dst = encode_invocation_designation (charset, coding, dst, \
4222 &produced_chars); \
4223 } while (1)
4226 #define ENCODE_ISO_CHARACTER(charset, c) \
4227 do { \
4228 unsigned code; \
4229 CODING_ENCODE_CHAR (coding, dst, dst_end, (charset), (c), code); \
4231 if (CHARSET_DIMENSION (charset) == 1) \
4232 ENCODE_ISO_CHARACTER_DIMENSION1 ((charset), code); \
4233 else \
4234 ENCODE_ISO_CHARACTER_DIMENSION2 ((charset), code >> 8, code & 0xFF); \
4235 } while (0)
4238 /* Produce designation and invocation codes at a place pointed by DST
4239 to use CHARSET. The element `spec.iso_2022' of *CODING is updated.
4240 Return new DST. */
4242 static unsigned char *
4243 encode_invocation_designation (struct charset *charset,
4244 struct coding_system *coding,
4245 unsigned char *dst, ptrdiff_t *p_nchars)
4247 bool multibytep = coding->dst_multibyte;
4248 ptrdiff_t produced_chars = *p_nchars;
4249 int reg; /* graphic register number */
4250 int id = CHARSET_ID (charset);
4252 /* At first, check designations. */
4253 for (reg = 0; reg < 4; reg++)
4254 if (id == CODING_ISO_DESIGNATION (coding, reg))
4255 break;
4257 if (reg >= 4)
4259 /* CHARSET is not yet designated to any graphic registers. */
4260 /* At first check the requested designation. */
4261 reg = CODING_ISO_REQUEST (coding, id);
4262 if (reg < 0)
4263 /* Since CHARSET requests no special designation, designate it
4264 to graphic register 0. */
4265 reg = 0;
4267 ENCODE_DESIGNATION (charset, reg, coding);
4270 if (CODING_ISO_INVOCATION (coding, 0) != reg
4271 && CODING_ISO_INVOCATION (coding, 1) != reg)
4273 /* Since the graphic register REG is not invoked to any graphic
4274 planes, invoke it to graphic plane 0. */
4275 switch (reg)
4277 case 0: /* graphic register 0 */
4278 ENCODE_SHIFT_IN;
4279 break;
4281 case 1: /* graphic register 1 */
4282 ENCODE_SHIFT_OUT;
4283 break;
4285 case 2: /* graphic register 2 */
4286 if (CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_SINGLE_SHIFT)
4287 ENCODE_SINGLE_SHIFT_2;
4288 else
4289 ENCODE_LOCKING_SHIFT_2;
4290 break;
4292 case 3: /* graphic register 3 */
4293 if (CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_SINGLE_SHIFT)
4294 ENCODE_SINGLE_SHIFT_3;
4295 else
4296 ENCODE_LOCKING_SHIFT_3;
4297 break;
4299 default:
4300 break;
4304 *p_nchars = produced_chars;
4305 return dst;
4309 /* Produce codes for designation and invocation to reset the graphic
4310 planes and registers to initial state. */
4311 #define ENCODE_RESET_PLANE_AND_REGISTER() \
4312 do { \
4313 int reg; \
4314 struct charset *charset; \
4316 if (CODING_ISO_INVOCATION (coding, 0) != 0) \
4317 ENCODE_SHIFT_IN; \
4318 for (reg = 0; reg < 4; reg++) \
4319 if (CODING_ISO_INITIAL (coding, reg) >= 0 \
4320 && (CODING_ISO_DESIGNATION (coding, reg) \
4321 != CODING_ISO_INITIAL (coding, reg))) \
4323 charset = CHARSET_FROM_ID (CODING_ISO_INITIAL (coding, reg)); \
4324 ENCODE_DESIGNATION (charset, reg, coding); \
4326 } while (0)
4329 /* Produce designation sequences of charsets in the line started from
4330 CHARBUF to a place pointed by DST, and return the number of
4331 produced bytes. DST should not directly point a buffer text area
4332 which may be relocated by char_charset call.
4334 If the current block ends before any end-of-line, we may fail to
4335 find all the necessary designations. */
4337 static ptrdiff_t
4338 encode_designation_at_bol (struct coding_system *coding,
4339 int *charbuf, int *charbuf_end,
4340 unsigned char *dst)
4342 unsigned char *orig = dst;
4343 struct charset *charset;
4344 /* Table of charsets to be designated to each graphic register. */
4345 int r[4];
4346 int c, found = 0, reg;
4347 ptrdiff_t produced_chars = 0;
4348 bool multibytep = coding->dst_multibyte;
4349 Lisp_Object attrs;
4350 Lisp_Object charset_list;
4352 attrs = CODING_ID_ATTRS (coding->id);
4353 charset_list = CODING_ATTR_CHARSET_LIST (attrs);
4354 if (EQ (charset_list, Qiso_2022))
4355 charset_list = Viso_2022_charset_list;
4357 for (reg = 0; reg < 4; reg++)
4358 r[reg] = -1;
4360 while (charbuf < charbuf_end && found < 4)
4362 int id;
4364 c = *charbuf++;
4365 if (c == '\n')
4366 break;
4367 charset = char_charset (c, charset_list, NULL);
4368 id = CHARSET_ID (charset);
4369 reg = CODING_ISO_REQUEST (coding, id);
4370 if (reg >= 0 && r[reg] < 0)
4372 found++;
4373 r[reg] = id;
4377 if (found)
4379 for (reg = 0; reg < 4; reg++)
4380 if (r[reg] >= 0
4381 && CODING_ISO_DESIGNATION (coding, reg) != r[reg])
4382 ENCODE_DESIGNATION (CHARSET_FROM_ID (r[reg]), reg, coding);
4385 return dst - orig;
4388 /* See the above "GENERAL NOTES on `encode_coding_XXX ()' functions". */
4390 static bool
4391 encode_coding_iso_2022 (struct coding_system *coding)
4393 bool multibytep = coding->dst_multibyte;
4394 int *charbuf = coding->charbuf;
4395 int *charbuf_end = charbuf + coding->charbuf_used;
4396 unsigned char *dst = coding->destination + coding->produced;
4397 unsigned char *dst_end = coding->destination + coding->dst_bytes;
4398 int safe_room = 16;
4399 bool bol_designation
4400 = (CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_DESIGNATE_AT_BOL
4401 && CODING_ISO_BOL (coding));
4402 ptrdiff_t produced_chars = 0;
4403 Lisp_Object attrs, eol_type, charset_list;
4404 bool ascii_compatible;
4405 int c;
4406 int preferred_charset_id = -1;
4408 CODING_GET_INFO (coding, attrs, charset_list);
4409 eol_type = inhibit_eol_conversion ? Qunix : CODING_ID_EOL_TYPE (coding->id);
4410 if (VECTORP (eol_type))
4411 eol_type = Qunix;
4413 setup_iso_safe_charsets (attrs);
4414 /* Charset list may have been changed. */
4415 charset_list = CODING_ATTR_CHARSET_LIST (attrs);
4416 coding->safe_charsets = SDATA (CODING_ATTR_SAFE_CHARSETS (attrs));
4418 ascii_compatible
4419 = (! NILP (CODING_ATTR_ASCII_COMPAT (attrs))
4420 && ! (CODING_ISO_FLAGS (coding) & (CODING_ISO_FLAG_DESIGNATION
4421 | CODING_ISO_FLAG_LOCKING_SHIFT)));
4423 while (charbuf < charbuf_end)
4425 ASSURE_DESTINATION (safe_room);
4427 if (bol_designation)
4429 /* We have to produce designation sequences if any now. */
4430 unsigned char desig_buf[16];
4431 ptrdiff_t nbytes;
4432 ptrdiff_t offset;
4434 charset_map_loaded = 0;
4435 nbytes = encode_designation_at_bol (coding, charbuf, charbuf_end,
4436 desig_buf);
4437 if (charset_map_loaded
4438 && (offset = coding_change_destination (coding)))
4440 dst += offset;
4441 dst_end += offset;
4443 memcpy (dst, desig_buf, nbytes);
4444 dst += nbytes;
4445 /* We are sure that designation sequences are all ASCII bytes. */
4446 produced_chars += nbytes;
4447 bol_designation = 0;
4448 ASSURE_DESTINATION (safe_room);
4451 c = *charbuf++;
4453 if (c < 0)
4455 /* Handle an annotation. */
4456 switch (*charbuf)
4458 case CODING_ANNOTATE_COMPOSITION_MASK:
4459 /* Not yet implemented. */
4460 break;
4461 case CODING_ANNOTATE_CHARSET_MASK:
4462 preferred_charset_id = charbuf[2];
4463 if (preferred_charset_id >= 0
4464 && NILP (Fmemq (make_number (preferred_charset_id),
4465 charset_list)))
4466 preferred_charset_id = -1;
4467 break;
4468 default:
4469 emacs_abort ();
4471 charbuf += -c - 1;
4472 continue;
4475 /* Now encode the character C. */
4476 if (c < 0x20 || c == 0x7F)
4478 if (c == '\n'
4479 || (c == '\r' && EQ (eol_type, Qmac)))
4481 if (CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_RESET_AT_EOL)
4482 ENCODE_RESET_PLANE_AND_REGISTER ();
4483 if (CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_INIT_AT_BOL)
4485 int i;
4487 for (i = 0; i < 4; i++)
4488 CODING_ISO_DESIGNATION (coding, i)
4489 = CODING_ISO_INITIAL (coding, i);
4491 bol_designation = ((CODING_ISO_FLAGS (coding)
4492 & CODING_ISO_FLAG_DESIGNATE_AT_BOL)
4493 != 0);
4495 else if (CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_RESET_AT_CNTL)
4496 ENCODE_RESET_PLANE_AND_REGISTER ();
4497 EMIT_ONE_ASCII_BYTE (c);
4499 else if (ASCII_CHAR_P (c))
4501 if (ascii_compatible)
4502 EMIT_ONE_ASCII_BYTE (c);
4503 else
4505 struct charset *charset = CHARSET_FROM_ID (charset_ascii);
4506 ENCODE_ISO_CHARACTER (charset, c);
4509 else if (CHAR_BYTE8_P (c))
4511 c = CHAR_TO_BYTE8 (c);
4512 EMIT_ONE_BYTE (c);
4514 else
4516 struct charset *charset;
4518 if (preferred_charset_id >= 0)
4520 bool result;
4522 charset = CHARSET_FROM_ID (preferred_charset_id);
4523 CODING_CHAR_CHARSET_P (coding, dst, dst_end, c, charset, result);
4524 if (! result)
4525 CODING_CHAR_CHARSET (coding, dst, dst_end, c, charset_list,
4526 NULL, charset);
4528 else
4529 CODING_CHAR_CHARSET (coding, dst, dst_end, c, charset_list,
4530 NULL, charset);
4531 if (!charset)
4533 if (coding->mode & CODING_MODE_SAFE_ENCODING)
4535 c = CODING_INHIBIT_CHARACTER_SUBSTITUTION;
4536 charset = CHARSET_FROM_ID (charset_ascii);
4538 else
4540 c = coding->default_char;
4541 CODING_CHAR_CHARSET (coding, dst, dst_end, c,
4542 charset_list, NULL, charset);
4545 ENCODE_ISO_CHARACTER (charset, c);
4549 if (coding->mode & CODING_MODE_LAST_BLOCK
4550 && CODING_ISO_FLAGS (coding) & CODING_ISO_FLAG_RESET_AT_EOL)
4552 ASSURE_DESTINATION (safe_room);
4553 ENCODE_RESET_PLANE_AND_REGISTER ();
4555 record_conversion_result (coding, CODING_RESULT_SUCCESS);
4556 CODING_ISO_BOL (coding) = bol_designation;
4557 coding->produced_char += produced_chars;
4558 coding->produced = dst - coding->destination;
4559 return 0;
4563 /*** 8,9. SJIS and BIG5 handlers ***/
4565 /* Although SJIS and BIG5 are not ISO's coding system, they are used
4566 quite widely. So, for the moment, Emacs supports them in the bare
4567 C code. But, in the future, they may be supported only by CCL. */
4569 /* SJIS is a coding system encoding three character sets: ASCII, right
4570 half of JISX0201-Kana, and JISX0208. An ASCII character is encoded
4571 as is. A character of charset katakana-jisx0201 is encoded by
4572 "position-code + 0x80". A character of charset japanese-jisx0208
4573 is encoded in 2-byte but two position-codes are divided and shifted
4574 so that it fit in the range below.
4576 --- CODE RANGE of SJIS ---
4577 (character set) (range)
4578 ASCII 0x00 .. 0x7F
4579 KATAKANA-JISX0201 0xA0 .. 0xDF
4580 JISX0208 (1st byte) 0x81 .. 0x9F and 0xE0 .. 0xEF
4581 (2nd byte) 0x40 .. 0x7E and 0x80 .. 0xFC
4582 -------------------------------
4586 /* BIG5 is a coding system encoding two character sets: ASCII and
4587 Big5. An ASCII character is encoded as is. Big5 is a two-byte
4588 character set and is encoded in two-byte.
4590 --- CODE RANGE of BIG5 ---
4591 (character set) (range)
4592 ASCII 0x00 .. 0x7F
4593 Big5 (1st byte) 0xA1 .. 0xFE
4594 (2nd byte) 0x40 .. 0x7E and 0xA1 .. 0xFE
4595 --------------------------
4599 /* See the above "GENERAL NOTES on `detect_coding_XXX ()' functions".
4600 Return true if a text is encoded in SJIS. */
4602 static bool
4603 detect_coding_sjis (struct coding_system *coding,
4604 struct coding_detection_info *detect_info)
4606 const unsigned char *src = coding->source, *src_base;
4607 const unsigned char *src_end = coding->source + coding->src_bytes;
4608 bool multibytep = coding->src_multibyte;
4609 ptrdiff_t consumed_chars = 0;
4610 int found = 0;
4611 int c;
4612 Lisp_Object attrs, charset_list;
4613 int max_first_byte_of_2_byte_code;
4615 CODING_GET_INFO (coding, attrs, charset_list);
4616 max_first_byte_of_2_byte_code
4617 = (XINT (Flength (charset_list)) > 3 ? 0xFC : 0xEF);
4619 detect_info->checked |= CATEGORY_MASK_SJIS;
4620 /* A coding system of this category is always ASCII compatible. */
4621 src += coding->head_ascii;
4623 while (1)
4625 src_base = src;
4626 ONE_MORE_BYTE (c);
4627 if (c < 0x80)
4628 continue;
4629 if ((c >= 0x81 && c <= 0x9F)
4630 || (c >= 0xE0 && c <= max_first_byte_of_2_byte_code))
4632 ONE_MORE_BYTE (c);
4633 if (c < 0x40 || c == 0x7F || c > 0xFC)
4634 break;
4635 found = CATEGORY_MASK_SJIS;
4637 else if (c >= 0xA0 && c < 0xE0)
4638 found = CATEGORY_MASK_SJIS;
4639 else
4640 break;
4642 detect_info->rejected |= CATEGORY_MASK_SJIS;
4643 return 0;
4645 no_more_source:
4646 if (src_base < src && coding->mode & CODING_MODE_LAST_BLOCK)
4648 detect_info->rejected |= CATEGORY_MASK_SJIS;
4649 return 0;
4651 detect_info->found |= found;
4652 return 1;
4655 /* See the above "GENERAL NOTES on `detect_coding_XXX ()' functions".
4656 Return true if a text is encoded in BIG5. */
4658 static bool
4659 detect_coding_big5 (struct coding_system *coding,
4660 struct coding_detection_info *detect_info)
4662 const unsigned char *src = coding->source, *src_base;
4663 const unsigned char *src_end = coding->source + coding->src_bytes;
4664 bool multibytep = coding->src_multibyte;
4665 ptrdiff_t consumed_chars = 0;
4666 int found = 0;
4667 int c;
4669 detect_info->checked |= CATEGORY_MASK_BIG5;
4670 /* A coding system of this category is always ASCII compatible. */
4671 src += coding->head_ascii;
4673 while (1)
4675 src_base = src;
4676 ONE_MORE_BYTE (c);
4677 if (c < 0x80)
4678 continue;
4679 if (c >= 0xA1)
4681 ONE_MORE_BYTE (c);
4682 if (c < 0x40 || (c >= 0x7F && c <= 0xA0))
4683 return 0;
4684 found = CATEGORY_MASK_BIG5;
4686 else
4687 break;
4689 detect_info->rejected |= CATEGORY_MASK_BIG5;
4690 return 0;
4692 no_more_source:
4693 if (src_base < src && coding->mode & CODING_MODE_LAST_BLOCK)
4695 detect_info->rejected |= CATEGORY_MASK_BIG5;
4696 return 0;
4698 detect_info->found |= found;
4699 return 1;
4702 /* See the above "GENERAL NOTES on `decode_coding_XXX ()' functions". */
4704 static void
4705 decode_coding_sjis (struct coding_system *coding)
4707 const unsigned char *src = coding->source + coding->consumed;
4708 const unsigned char *src_end = coding->source + coding->src_bytes;
4709 const unsigned char *src_base;
4710 int *charbuf = coding->charbuf + coding->charbuf_used;
4711 /* We may produce one charset annotation in one loop and one more at
4712 the end. */
4713 int *charbuf_end
4714 = coding->charbuf + coding->charbuf_size - (MAX_ANNOTATION_LENGTH * 2);
4715 ptrdiff_t consumed_chars = 0, consumed_chars_base;
4716 bool multibytep = coding->src_multibyte;
4717 struct charset *charset_roman, *charset_kanji, *charset_kana;
4718 struct charset *charset_kanji2;
4719 Lisp_Object attrs, charset_list, val;
4720 ptrdiff_t char_offset = coding->produced_char;
4721 ptrdiff_t last_offset = char_offset;
4722 int last_id = charset_ascii;
4723 bool eol_dos
4724 = !inhibit_eol_conversion && EQ (CODING_ID_EOL_TYPE (coding->id), Qdos);
4725 int byte_after_cr = -1;
4727 CODING_GET_INFO (coding, attrs, charset_list);
4729 val = charset_list;
4730 charset_roman = CHARSET_FROM_ID (XINT (XCAR (val))), val = XCDR (val);
4731 charset_kana = CHARSET_FROM_ID (XINT (XCAR (val))), val = XCDR (val);
4732 charset_kanji = CHARSET_FROM_ID (XINT (XCAR (val))), val = XCDR (val);
4733 charset_kanji2 = NILP (val) ? NULL : CHARSET_FROM_ID (XINT (XCAR (val)));
4735 while (1)
4737 int c, c1;
4738 struct charset *charset;
4740 src_base = src;
4741 consumed_chars_base = consumed_chars;
4743 if (charbuf >= charbuf_end)
4745 if (byte_after_cr >= 0)
4746 src_base--;
4747 break;
4750 if (byte_after_cr >= 0)
4751 c = byte_after_cr, byte_after_cr = -1;
4752 else
4753 ONE_MORE_BYTE (c);
4754 if (c < 0)
4755 goto invalid_code;
4756 if (c < 0x80)
4758 if (eol_dos && c == '\r')
4759 ONE_MORE_BYTE (byte_after_cr);
4760 charset = charset_roman;
4762 else if (c == 0x80 || c == 0xA0)
4763 goto invalid_code;
4764 else if (c >= 0xA1 && c <= 0xDF)
4766 /* SJIS -> JISX0201-Kana */
4767 c &= 0x7F;
4768 charset = charset_kana;
4770 else if (c <= 0xEF)
4772 /* SJIS -> JISX0208 */
4773 ONE_MORE_BYTE (c1);
4774 if (c1 < 0x40 || c1 == 0x7F || c1 > 0xFC)
4775 goto invalid_code;
4776 c = (c << 8) | c1;
4777 SJIS_TO_JIS (c);
4778 charset = charset_kanji;
4780 else if (c <= 0xFC && charset_kanji2)
4782 /* SJIS -> JISX0213-2 */
4783 ONE_MORE_BYTE (c1);
4784 if (c1 < 0x40 || c1 == 0x7F || c1 > 0xFC)
4785 goto invalid_code;
4786 c = (c << 8) | c1;
4787 SJIS_TO_JIS2 (c);
4788 charset = charset_kanji2;
4790 else
4791 goto invalid_code;
4792 if (charset->id != charset_ascii
4793 && last_id != charset->id)
4795 if (last_id != charset_ascii)
4796 ADD_CHARSET_DATA (charbuf, char_offset - last_offset, last_id);
4797 last_id = charset->id;
4798 last_offset = char_offset;
4800 CODING_DECODE_CHAR (coding, src, src_base, src_end, charset, c, c);
4801 *charbuf++ = c;
4802 char_offset++;
4803 continue;
4805 invalid_code:
4806 src = src_base;
4807 consumed_chars = consumed_chars_base;
4808 ONE_MORE_BYTE (c);
4809 *charbuf++ = c < 0 ? -c : BYTE8_TO_CHAR (c);
4810 char_offset++;
4813 no_more_source:
4814 if (last_id != charset_ascii)
4815 ADD_CHARSET_DATA (charbuf, char_offset - last_offset, last_id);
4816 coding->consumed_char += consumed_chars_base;
4817 coding->consumed = src_base - coding->source;
4818 coding->charbuf_used = charbuf - coding->charbuf;
4821 static void
4822 decode_coding_big5 (struct coding_system *coding)
4824 const unsigned char *src = coding->source + coding->consumed;
4825 const unsigned char *src_end = coding->source + coding->src_bytes;
4826 const unsigned char *src_base;
4827 int *charbuf = coding->charbuf + coding->charbuf_used;
4828 /* We may produce one charset annotation in one loop and one more at
4829 the end. */
4830 int *charbuf_end
4831 = coding->charbuf + coding->charbuf_size - (MAX_ANNOTATION_LENGTH * 2);
4832 ptrdiff_t consumed_chars = 0, consumed_chars_base;
4833 bool multibytep = coding->src_multibyte;
4834 struct charset *charset_roman, *charset_big5;
4835 Lisp_Object attrs, charset_list, val;
4836 ptrdiff_t char_offset = coding->produced_char;
4837 ptrdiff_t last_offset = char_offset;
4838 int last_id = charset_ascii;
4839 bool eol_dos
4840 = !inhibit_eol_conversion && EQ (CODING_ID_EOL_TYPE (coding->id), Qdos);
4841 int byte_after_cr = -1;
4843 CODING_GET_INFO (coding, attrs, charset_list);
4844 val = charset_list;
4845 charset_roman = CHARSET_FROM_ID (XINT (XCAR (val))), val = XCDR (val);
4846 charset_big5 = CHARSET_FROM_ID (XINT (XCAR (val)));
4848 while (1)
4850 int c, c1;
4851 struct charset *charset;
4853 src_base = src;
4854 consumed_chars_base = consumed_chars;
4856 if (charbuf >= charbuf_end)
4858 if (byte_after_cr >= 0)
4859 src_base--;
4860 break;
4863 if (byte_after_cr >= 0)
4864 c = byte_after_cr, byte_after_cr = -1;
4865 else
4866 ONE_MORE_BYTE (c);
4868 if (c < 0)
4869 goto invalid_code;
4870 if (c < 0x80)
4872 if (eol_dos && c == '\r')
4873 ONE_MORE_BYTE (byte_after_cr);
4874 charset = charset_roman;
4876 else
4878 /* BIG5 -> Big5 */
4879 if (c < 0xA1 || c > 0xFE)
4880 goto invalid_code;
4881 ONE_MORE_BYTE (c1);
4882 if (c1 < 0x40 || (c1 > 0x7E && c1 < 0xA1) || c1 > 0xFE)
4883 goto invalid_code;
4884 c = c << 8 | c1;
4885 charset = charset_big5;
4887 if (charset->id != charset_ascii
4888 && last_id != charset->id)
4890 if (last_id != charset_ascii)
4891 ADD_CHARSET_DATA (charbuf, char_offset - last_offset, last_id);
4892 last_id = charset->id;
4893 last_offset = char_offset;
4895 CODING_DECODE_CHAR (coding, src, src_base, src_end, charset, c, c);
4896 *charbuf++ = c;
4897 char_offset++;
4898 continue;
4900 invalid_code:
4901 src = src_base;
4902 consumed_chars = consumed_chars_base;
4903 ONE_MORE_BYTE (c);
4904 *charbuf++ = c < 0 ? -c : BYTE8_TO_CHAR (c);
4905 char_offset++;
4908 no_more_source:
4909 if (last_id != charset_ascii)
4910 ADD_CHARSET_DATA (charbuf, char_offset - last_offset, last_id);
4911 coding->consumed_char += consumed_chars_base;
4912 coding->consumed = src_base - coding->source;
4913 coding->charbuf_used = charbuf - coding->charbuf;
4916 /* See the above "GENERAL NOTES on `encode_coding_XXX ()' functions".
4917 This function can encode charsets `ascii', `katakana-jisx0201',
4918 `japanese-jisx0208', `chinese-big5-1', and `chinese-big5-2'. We
4919 are sure that all these charsets are registered as official charset
4920 (i.e. do not have extended leading-codes). Characters of other
4921 charsets are produced without any encoding. */
4923 static bool
4924 encode_coding_sjis (struct coding_system *coding)
4926 bool multibytep = coding->dst_multibyte;
4927 int *charbuf = coding->charbuf;
4928 int *charbuf_end = charbuf + coding->charbuf_used;
4929 unsigned char *dst = coding->destination + coding->produced;
4930 unsigned char *dst_end = coding->destination + coding->dst_bytes;
4931 int safe_room = 4;
4932 ptrdiff_t produced_chars = 0;
4933 Lisp_Object attrs, charset_list, val;
4934 bool ascii_compatible;
4935 struct charset *charset_kanji, *charset_kana;
4936 struct charset *charset_kanji2;
4937 int c;
4939 CODING_GET_INFO (coding, attrs, charset_list);
4940 val = XCDR (charset_list);
4941 charset_kana = CHARSET_FROM_ID (XINT (XCAR (val))), val = XCDR (val);
4942 charset_kanji = CHARSET_FROM_ID (XINT (XCAR (val))), val = XCDR (val);
4943 charset_kanji2 = NILP (val) ? NULL : CHARSET_FROM_ID (XINT (XCAR (val)));
4945 ascii_compatible = ! NILP (CODING_ATTR_ASCII_COMPAT (attrs));
4947 while (charbuf < charbuf_end)
4949 ASSURE_DESTINATION (safe_room);
4950 c = *charbuf++;
4951 /* Now encode the character C. */
4952 if (ASCII_CHAR_P (c) && ascii_compatible)
4953 EMIT_ONE_ASCII_BYTE (c);
4954 else if (CHAR_BYTE8_P (c))
4956 c = CHAR_TO_BYTE8 (c);
4957 EMIT_ONE_BYTE (c);
4959 else
4961 unsigned code;
4962 struct charset *charset;
4963 CODING_CHAR_CHARSET (coding, dst, dst_end, c, charset_list,
4964 &code, charset);
4966 if (!charset)
4968 if (coding->mode & CODING_MODE_SAFE_ENCODING)
4970 code = CODING_INHIBIT_CHARACTER_SUBSTITUTION;
4971 charset = CHARSET_FROM_ID (charset_ascii);
4973 else
4975 c = coding->default_char;
4976 CODING_CHAR_CHARSET (coding, dst, dst_end, c,
4977 charset_list, &code, charset);
4980 if (code == CHARSET_INVALID_CODE (charset))
4981 emacs_abort ();
4982 if (charset == charset_kanji)
4984 int c1, c2;
4985 JIS_TO_SJIS (code);
4986 c1 = code >> 8, c2 = code & 0xFF;
4987 EMIT_TWO_BYTES (c1, c2);
4989 else if (charset == charset_kana)
4990 EMIT_ONE_BYTE (code | 0x80);
4991 else if (charset_kanji2 && charset == charset_kanji2)
4993 int c1, c2;
4995 c1 = code >> 8;
4996 if (c1 == 0x21 || (c1 >= 0x23 && c1 <= 0x25)
4997 || c1 == 0x28
4998 || (c1 >= 0x2C && c1 <= 0x2F) || c1 >= 0x6E)
5000 JIS_TO_SJIS2 (code);
5001 c1 = code >> 8, c2 = code & 0xFF;
5002 EMIT_TWO_BYTES (c1, c2);
5004 else
5005 EMIT_ONE_ASCII_BYTE (code & 0x7F);
5007 else
5008 EMIT_ONE_ASCII_BYTE (code & 0x7F);
5011 record_conversion_result (coding, CODING_RESULT_SUCCESS);
5012 coding->produced_char += produced_chars;
5013 coding->produced = dst - coding->destination;
5014 return 0;
5017 static bool
5018 encode_coding_big5 (struct coding_system *coding)
5020 bool multibytep = coding->dst_multibyte;
5021 int *charbuf = coding->charbuf;
5022 int *charbuf_end = charbuf + coding->charbuf_used;
5023 unsigned char *dst = coding->destination + coding->produced;
5024 unsigned char *dst_end = coding->destination + coding->dst_bytes;
5025 int safe_room = 4;
5026 ptrdiff_t produced_chars = 0;
5027 Lisp_Object attrs, charset_list, val;
5028 bool ascii_compatible;
5029 struct charset *charset_big5;
5030 int c;
5032 CODING_GET_INFO (coding, attrs, charset_list);
5033 val = XCDR (charset_list);
5034 charset_big5 = CHARSET_FROM_ID (XINT (XCAR (val)));
5035 ascii_compatible = ! NILP (CODING_ATTR_ASCII_COMPAT (attrs));
5037 while (charbuf < charbuf_end)
5039 ASSURE_DESTINATION (safe_room);
5040 c = *charbuf++;
5041 /* Now encode the character C. */
5042 if (ASCII_CHAR_P (c) && ascii_compatible)
5043 EMIT_ONE_ASCII_BYTE (c);
5044 else if (CHAR_BYTE8_P (c))
5046 c = CHAR_TO_BYTE8 (c);
5047 EMIT_ONE_BYTE (c);
5049 else
5051 unsigned code;
5052 struct charset *charset;
5053 CODING_CHAR_CHARSET (coding, dst, dst_end, c, charset_list,
5054 &code, charset);
5056 if (! charset)
5058 if (coding->mode & CODING_MODE_SAFE_ENCODING)
5060 code = CODING_INHIBIT_CHARACTER_SUBSTITUTION;
5061 charset = CHARSET_FROM_ID (charset_ascii);
5063 else
5065 c = coding->default_char;
5066 CODING_CHAR_CHARSET (coding, dst, dst_end, c,
5067 charset_list, &code, charset);
5070 if (code == CHARSET_INVALID_CODE (charset))
5071 emacs_abort ();
5072 if (charset == charset_big5)
5074 int c1, c2;
5076 c1 = code >> 8, c2 = code & 0xFF;
5077 EMIT_TWO_BYTES (c1, c2);
5079 else
5080 EMIT_ONE_ASCII_BYTE (code & 0x7F);
5083 record_conversion_result (coding, CODING_RESULT_SUCCESS);
5084 coding->produced_char += produced_chars;
5085 coding->produced = dst - coding->destination;
5086 return 0;
5090 /*** 10. CCL handlers ***/
5092 /* See the above "GENERAL NOTES on `detect_coding_XXX ()' functions".
5093 Return true if a text is encoded in a coding system of which
5094 encoder/decoder are written in CCL program. */
5096 static bool
5097 detect_coding_ccl (struct coding_system *coding,
5098 struct coding_detection_info *detect_info)
5100 const unsigned char *src = coding->source, *src_base;
5101 const unsigned char *src_end = coding->source + coding->src_bytes;
5102 bool multibytep = coding->src_multibyte;
5103 ptrdiff_t consumed_chars = 0;
5104 int found = 0;
5105 unsigned char *valids;
5106 ptrdiff_t head_ascii = coding->head_ascii;
5107 Lisp_Object attrs;
5109 detect_info->checked |= CATEGORY_MASK_CCL;
5111 coding = &coding_categories[coding_category_ccl];
5112 valids = CODING_CCL_VALIDS (coding);
5113 attrs = CODING_ID_ATTRS (coding->id);
5114 if (! NILP (CODING_ATTR_ASCII_COMPAT (attrs)))
5115 src += head_ascii;
5117 while (1)
5119 int c;
5121 src_base = src;
5122 ONE_MORE_BYTE (c);
5123 if (c < 0 || ! valids[c])
5124 break;
5125 if ((valids[c] > 1))
5126 found = CATEGORY_MASK_CCL;
5128 detect_info->rejected |= CATEGORY_MASK_CCL;
5129 return 0;
5131 no_more_source:
5132 detect_info->found |= found;
5133 return 1;
5136 static void
5137 decode_coding_ccl (struct coding_system *coding)
5139 const unsigned char *src = coding->source + coding->consumed;
5140 const unsigned char *src_end = coding->source + coding->src_bytes;
5141 int *charbuf = coding->charbuf + coding->charbuf_used;
5142 int *charbuf_end = coding->charbuf + coding->charbuf_size;
5143 ptrdiff_t consumed_chars = 0;
5144 bool multibytep = coding->src_multibyte;
5145 struct ccl_program *ccl = &coding->spec.ccl->ccl;
5146 int source_charbuf[1024];
5147 int source_byteidx[1025];
5148 Lisp_Object attrs, charset_list;
5150 CODING_GET_INFO (coding, attrs, charset_list);
5152 while (1)
5154 const unsigned char *p = src;
5155 ptrdiff_t offset;
5156 int i = 0;
5158 if (multibytep)
5160 while (i < 1024 && p < src_end)
5162 source_byteidx[i] = p - src;
5163 source_charbuf[i++] = STRING_CHAR_ADVANCE (p);
5165 source_byteidx[i] = p - src;
5167 else
5168 while (i < 1024 && p < src_end)
5169 source_charbuf[i++] = *p++;
5171 if (p == src_end && coding->mode & CODING_MODE_LAST_BLOCK)
5172 ccl->last_block = true;
5173 /* As ccl_driver calls DECODE_CHAR, buffer may be relocated. */
5174 charset_map_loaded = 0;
5175 ccl_driver (ccl, source_charbuf, charbuf, i, charbuf_end - charbuf,
5176 charset_list);
5177 if (charset_map_loaded
5178 && (offset = coding_change_source (coding)))
5180 p += offset;
5181 src += offset;
5182 src_end += offset;
5184 charbuf += ccl->produced;
5185 if (multibytep)
5186 src += source_byteidx[ccl->consumed];
5187 else
5188 src += ccl->consumed;
5189 consumed_chars += ccl->consumed;
5190 if (p == src_end || ccl->status != CCL_STAT_SUSPEND_BY_SRC)
5191 break;
5194 switch (ccl->status)
5196 case CCL_STAT_SUSPEND_BY_SRC:
5197 record_conversion_result (coding, CODING_RESULT_INSUFFICIENT_SRC);
5198 break;
5199 case CCL_STAT_SUSPEND_BY_DST:
5200 record_conversion_result (coding, CODING_RESULT_INSUFFICIENT_DST);
5201 break;
5202 case CCL_STAT_QUIT:
5203 case CCL_STAT_INVALID_CMD:
5204 record_conversion_result (coding, CODING_RESULT_INTERRUPT);
5205 break;
5206 default:
5207 record_conversion_result (coding, CODING_RESULT_SUCCESS);
5208 break;
5210 coding->consumed_char += consumed_chars;
5211 coding->consumed = src - coding->source;
5212 coding->charbuf_used = charbuf - coding->charbuf;
5215 static bool
5216 encode_coding_ccl (struct coding_system *coding)
5218 struct ccl_program *ccl = &coding->spec.ccl->ccl;
5219 bool multibytep = coding->dst_multibyte;
5220 int *charbuf = coding->charbuf;
5221 int *charbuf_end = charbuf + coding->charbuf_used;
5222 unsigned char *dst = coding->destination + coding->produced;
5223 unsigned char *dst_end = coding->destination + coding->dst_bytes;
5224 int destination_charbuf[1024];
5225 ptrdiff_t produced_chars = 0;
5226 int i;
5227 Lisp_Object attrs, charset_list;
5229 CODING_GET_INFO (coding, attrs, charset_list);
5230 if (coding->consumed_char == coding->src_chars
5231 && coding->mode & CODING_MODE_LAST_BLOCK)
5232 ccl->last_block = true;
5236 ptrdiff_t offset;
5238 /* As ccl_driver calls DECODE_CHAR, buffer may be relocated. */
5239 charset_map_loaded = 0;
5240 ccl_driver (ccl, charbuf, destination_charbuf,
5241 charbuf_end - charbuf, 1024, charset_list);
5242 if (charset_map_loaded
5243 && (offset = coding_change_destination (coding)))
5244 dst += offset;
5245 if (multibytep)
5247 ASSURE_DESTINATION (ccl->produced * 2);
5248 for (i = 0; i < ccl->produced; i++)
5249 EMIT_ONE_BYTE (destination_charbuf[i] & 0xFF);
5251 else
5253 ASSURE_DESTINATION (ccl->produced);
5254 for (i = 0; i < ccl->produced; i++)
5255 *dst++ = destination_charbuf[i] & 0xFF;
5256 produced_chars += ccl->produced;
5258 charbuf += ccl->consumed;
5259 if (ccl->status == CCL_STAT_QUIT
5260 || ccl->status == CCL_STAT_INVALID_CMD)
5261 break;
5263 while (charbuf < charbuf_end);
5265 switch (ccl->status)
5267 case CCL_STAT_SUSPEND_BY_SRC:
5268 record_conversion_result (coding, CODING_RESULT_INSUFFICIENT_SRC);
5269 break;
5270 case CCL_STAT_SUSPEND_BY_DST:
5271 record_conversion_result (coding, CODING_RESULT_INSUFFICIENT_DST);
5272 break;
5273 case CCL_STAT_QUIT:
5274 case CCL_STAT_INVALID_CMD:
5275 record_conversion_result (coding, CODING_RESULT_INTERRUPT);
5276 break;
5277 default:
5278 record_conversion_result (coding, CODING_RESULT_SUCCESS);
5279 break;
5282 coding->produced_char += produced_chars;
5283 coding->produced = dst - coding->destination;
5284 return 0;
5288 /*** 10, 11. no-conversion handlers ***/
5290 /* See the above "GENERAL NOTES on `decode_coding_XXX ()' functions". */
5292 static void
5293 decode_coding_raw_text (struct coding_system *coding)
5295 bool eol_dos
5296 = !inhibit_eol_conversion && EQ (CODING_ID_EOL_TYPE (coding->id), Qdos);
5298 coding->chars_at_source = 1;
5299 coding->consumed_char = coding->src_chars;
5300 coding->consumed = coding->src_bytes;
5301 if (eol_dos && coding->source[coding->src_bytes - 1] == '\r')
5303 coding->consumed_char--;
5304 coding->consumed--;
5305 record_conversion_result (coding, CODING_RESULT_INSUFFICIENT_SRC);
5307 else
5308 record_conversion_result (coding, CODING_RESULT_SUCCESS);
5311 static bool
5312 encode_coding_raw_text (struct coding_system *coding)
5314 bool multibytep = coding->dst_multibyte;
5315 int *charbuf = coding->charbuf;
5316 int *charbuf_end = coding->charbuf + coding->charbuf_used;
5317 unsigned char *dst = coding->destination + coding->produced;
5318 unsigned char *dst_end = coding->destination + coding->dst_bytes;
5319 ptrdiff_t produced_chars = 0;
5320 int c;
5322 if (multibytep)
5324 int safe_room = MAX_MULTIBYTE_LENGTH * 2;
5326 if (coding->src_multibyte)
5327 while (charbuf < charbuf_end)
5329 ASSURE_DESTINATION (safe_room);
5330 c = *charbuf++;
5331 if (ASCII_CHAR_P (c))
5332 EMIT_ONE_ASCII_BYTE (c);
5333 else if (CHAR_BYTE8_P (c))
5335 c = CHAR_TO_BYTE8 (c);
5336 EMIT_ONE_BYTE (c);
5338 else
5340 unsigned char str[MAX_MULTIBYTE_LENGTH], *p0 = str, *p1 = str;
5342 CHAR_STRING_ADVANCE (c, p1);
5345 EMIT_ONE_BYTE (*p0);
5346 p0++;
5348 while (p0 < p1);
5351 else
5352 while (charbuf < charbuf_end)
5354 ASSURE_DESTINATION (safe_room);
5355 c = *charbuf++;
5356 EMIT_ONE_BYTE (c);
5359 else
5361 if (coding->src_multibyte)
5363 int safe_room = MAX_MULTIBYTE_LENGTH;
5365 while (charbuf < charbuf_end)
5367 ASSURE_DESTINATION (safe_room);
5368 c = *charbuf++;
5369 if (ASCII_CHAR_P (c))
5370 *dst++ = c;
5371 else if (CHAR_BYTE8_P (c))
5372 *dst++ = CHAR_TO_BYTE8 (c);
5373 else
5374 CHAR_STRING_ADVANCE (c, dst);
5377 else
5379 ASSURE_DESTINATION (charbuf_end - charbuf);
5380 while (charbuf < charbuf_end && dst < dst_end)
5381 *dst++ = *charbuf++;
5383 produced_chars = dst - (coding->destination + coding->produced);
5385 record_conversion_result (coding, CODING_RESULT_SUCCESS);
5386 coding->produced_char += produced_chars;
5387 coding->produced = dst - coding->destination;
5388 return 0;
5391 /* See the above "GENERAL NOTES on `detect_coding_XXX ()' functions".
5392 Return true if a text is encoded in a charset-based coding system. */
5394 static bool
5395 detect_coding_charset (struct coding_system *coding,
5396 struct coding_detection_info *detect_info)
5398 const unsigned char *src = coding->source, *src_base;
5399 const unsigned char *src_end = coding->source + coding->src_bytes;
5400 bool multibytep = coding->src_multibyte;
5401 ptrdiff_t consumed_chars = 0;
5402 Lisp_Object attrs, valids, name;
5403 int found = 0;
5404 ptrdiff_t head_ascii = coding->head_ascii;
5405 bool check_latin_extra = 0;
5407 detect_info->checked |= CATEGORY_MASK_CHARSET;
5409 coding = &coding_categories[coding_category_charset];
5410 attrs = CODING_ID_ATTRS (coding->id);
5411 valids = AREF (attrs, coding_attr_charset_valids);
5412 name = CODING_ID_NAME (coding->id);
5413 if (strncmp (SSDATA (SYMBOL_NAME (name)),
5414 "iso-8859-", sizeof ("iso-8859-") - 1) == 0
5415 || strncmp (SSDATA (SYMBOL_NAME (name)),
5416 "iso-latin-", sizeof ("iso-latin-") - 1) == 0)
5417 check_latin_extra = 1;
5419 if (! NILP (CODING_ATTR_ASCII_COMPAT (attrs)))
5420 src += head_ascii;
5422 while (1)
5424 int c;
5425 Lisp_Object val;
5426 struct charset *charset;
5427 int dim, idx;
5429 src_base = src;
5430 ONE_MORE_BYTE (c);
5431 if (c < 0)
5432 continue;
5433 val = AREF (valids, c);
5434 if (NILP (val))
5435 break;
5436 if (c >= 0x80)
5438 if (c < 0xA0
5439 && check_latin_extra
5440 && (!VECTORP (Vlatin_extra_code_table)
5441 || NILP (AREF (Vlatin_extra_code_table, c))))
5442 break;
5443 found = CATEGORY_MASK_CHARSET;
5445 if (INTEGERP (val))
5447 charset = CHARSET_FROM_ID (XFASTINT (val));
5448 dim = CHARSET_DIMENSION (charset);
5449 for (idx = 1; idx < dim; idx++)
5451 if (src == src_end)
5452 goto too_short;
5453 ONE_MORE_BYTE (c);
5454 if (c < charset->code_space[(dim - 1 - idx) * 4]
5455 || c > charset->code_space[(dim - 1 - idx) * 4 + 1])
5456 break;
5458 if (idx < dim)
5459 break;
5461 else
5463 idx = 1;
5464 for (; CONSP (val); val = XCDR (val))
5466 charset = CHARSET_FROM_ID (XFASTINT (XCAR (val)));
5467 dim = CHARSET_DIMENSION (charset);
5468 while (idx < dim)
5470 if (src == src_end)
5471 goto too_short;
5472 ONE_MORE_BYTE (c);
5473 if (c < charset->code_space[(dim - 1 - idx) * 4]
5474 || c > charset->code_space[(dim - 1 - idx) * 4 + 1])
5475 break;
5476 idx++;
5478 if (idx == dim)
5480 val = Qnil;
5481 break;
5484 if (CONSP (val))
5485 break;
5488 too_short:
5489 detect_info->rejected |= CATEGORY_MASK_CHARSET;
5490 return 0;
5492 no_more_source:
5493 detect_info->found |= found;
5494 return 1;
5497 static void
5498 decode_coding_charset (struct coding_system *coding)
5500 const unsigned char *src = coding->source + coding->consumed;
5501 const unsigned char *src_end = coding->source + coding->src_bytes;
5502 const unsigned char *src_base;
5503 int *charbuf = coding->charbuf + coding->charbuf_used;
5504 /* We may produce one charset annotation in one loop and one more at
5505 the end. */
5506 int *charbuf_end
5507 = coding->charbuf + coding->charbuf_size - (MAX_ANNOTATION_LENGTH * 2);
5508 ptrdiff_t consumed_chars = 0, consumed_chars_base;
5509 bool multibytep = coding->src_multibyte;
5510 Lisp_Object attrs = CODING_ID_ATTRS (coding->id);
5511 Lisp_Object valids;
5512 ptrdiff_t char_offset = coding->produced_char;
5513 ptrdiff_t last_offset = char_offset;
5514 int last_id = charset_ascii;
5515 bool eol_dos
5516 = !inhibit_eol_conversion && EQ (CODING_ID_EOL_TYPE (coding->id), Qdos);
5517 int byte_after_cr = -1;
5519 valids = AREF (attrs, coding_attr_charset_valids);
5521 while (1)
5523 int c;
5524 Lisp_Object val;
5525 struct charset *charset;
5526 int dim;
5527 int len = 1;
5528 unsigned code;
5530 src_base = src;
5531 consumed_chars_base = consumed_chars;
5533 if (charbuf >= charbuf_end)
5535 if (byte_after_cr >= 0)
5536 src_base--;
5537 break;
5540 if (byte_after_cr >= 0)
5542 c = byte_after_cr;
5543 byte_after_cr = -1;
5545 else
5547 ONE_MORE_BYTE (c);
5548 if (eol_dos && c == '\r')
5549 ONE_MORE_BYTE (byte_after_cr);
5551 if (c < 0)
5552 goto invalid_code;
5553 code = c;
5555 val = AREF (valids, c);
5556 if (! INTEGERP (val) && ! CONSP (val))
5557 goto invalid_code;
5558 if (INTEGERP (val))
5560 charset = CHARSET_FROM_ID (XFASTINT (val));
5561 dim = CHARSET_DIMENSION (charset);
5562 while (len < dim)
5564 ONE_MORE_BYTE (c);
5565 code = (code << 8) | c;
5566 len++;
5568 CODING_DECODE_CHAR (coding, src, src_base, src_end,
5569 charset, code, c);
5571 else
5573 /* VAL is a list of charset IDs. It is assured that the
5574 list is sorted by charset dimensions (smaller one
5575 comes first). */
5576 while (CONSP (val))
5578 charset = CHARSET_FROM_ID (XFASTINT (XCAR (val)));
5579 dim = CHARSET_DIMENSION (charset);
5580 while (len < dim)
5582 ONE_MORE_BYTE (c);
5583 code = (code << 8) | c;
5584 len++;
5586 CODING_DECODE_CHAR (coding, src, src_base,
5587 src_end, charset, code, c);
5588 if (c >= 0)
5589 break;
5590 val = XCDR (val);
5593 if (c < 0)
5594 goto invalid_code;
5595 if (charset->id != charset_ascii
5596 && last_id != charset->id)
5598 if (last_id != charset_ascii)
5599 ADD_CHARSET_DATA (charbuf, char_offset - last_offset, last_id);
5600 last_id = charset->id;
5601 last_offset = char_offset;
5604 *charbuf++ = c;
5605 char_offset++;
5606 continue;
5608 invalid_code:
5609 src = src_base;
5610 consumed_chars = consumed_chars_base;
5611 ONE_MORE_BYTE (c);
5612 *charbuf++ = c < 0 ? -c : ASCII_CHAR_P (c) ? c : BYTE8_TO_CHAR (c);
5613 char_offset++;
5616 no_more_source:
5617 if (last_id != charset_ascii)
5618 ADD_CHARSET_DATA (charbuf, char_offset - last_offset, last_id);
5619 coding->consumed_char += consumed_chars_base;
5620 coding->consumed = src_base - coding->source;
5621 coding->charbuf_used = charbuf - coding->charbuf;
5624 static bool
5625 encode_coding_charset (struct coding_system *coding)
5627 bool multibytep = coding->dst_multibyte;
5628 int *charbuf = coding->charbuf;
5629 int *charbuf_end = charbuf + coding->charbuf_used;
5630 unsigned char *dst = coding->destination + coding->produced;
5631 unsigned char *dst_end = coding->destination + coding->dst_bytes;
5632 int safe_room = MAX_MULTIBYTE_LENGTH;
5633 ptrdiff_t produced_chars = 0;
5634 Lisp_Object attrs, charset_list;
5635 bool ascii_compatible;
5636 int c;
5638 CODING_GET_INFO (coding, attrs, charset_list);
5639 ascii_compatible = ! NILP (CODING_ATTR_ASCII_COMPAT (attrs));
5641 while (charbuf < charbuf_end)
5643 struct charset *charset;
5644 unsigned code;
5646 ASSURE_DESTINATION (safe_room);
5647 c = *charbuf++;
5648 if (ascii_compatible && ASCII_CHAR_P (c))
5649 EMIT_ONE_ASCII_BYTE (c);
5650 else if (CHAR_BYTE8_P (c))
5652 c = CHAR_TO_BYTE8 (c);
5653 EMIT_ONE_BYTE (c);
5655 else
5657 CODING_CHAR_CHARSET (coding, dst, dst_end, c, charset_list,
5658 &code, charset);
5660 if (charset)
5662 if (CHARSET_DIMENSION (charset) == 1)
5663 EMIT_ONE_BYTE (code);
5664 else if (CHARSET_DIMENSION (charset) == 2)
5665 EMIT_TWO_BYTES (code >> 8, code & 0xFF);
5666 else if (CHARSET_DIMENSION (charset) == 3)
5667 EMIT_THREE_BYTES (code >> 16, (code >> 8) & 0xFF, code & 0xFF);
5668 else
5669 EMIT_FOUR_BYTES (code >> 24, (code >> 16) & 0xFF,
5670 (code >> 8) & 0xFF, code & 0xFF);
5672 else
5674 if (coding->mode & CODING_MODE_SAFE_ENCODING)
5675 c = CODING_INHIBIT_CHARACTER_SUBSTITUTION;
5676 else
5677 c = coding->default_char;
5678 EMIT_ONE_BYTE (c);
5683 record_conversion_result (coding, CODING_RESULT_SUCCESS);
5684 coding->produced_char += produced_chars;
5685 coding->produced = dst - coding->destination;
5686 return 0;
5690 /*** 7. C library functions ***/
5692 /* Setup coding context CODING from information about CODING_SYSTEM.
5693 If CODING_SYSTEM is nil, `no-conversion' is assumed. If
5694 CODING_SYSTEM is invalid, signal an error. */
5696 void
5697 setup_coding_system (Lisp_Object coding_system, struct coding_system *coding)
5699 Lisp_Object attrs;
5700 Lisp_Object eol_type;
5701 Lisp_Object coding_type;
5702 Lisp_Object val;
5704 if (NILP (coding_system))
5705 coding_system = Qundecided;
5707 CHECK_CODING_SYSTEM_GET_ID (coding_system, coding->id);
5709 attrs = CODING_ID_ATTRS (coding->id);
5710 eol_type = inhibit_eol_conversion ? Qunix : CODING_ID_EOL_TYPE (coding->id);
5712 coding->mode = 0;
5713 if (VECTORP (eol_type))
5714 coding->common_flags = (CODING_REQUIRE_DECODING_MASK
5715 | CODING_REQUIRE_DETECTION_MASK);
5716 else if (! EQ (eol_type, Qunix))
5717 coding->common_flags = (CODING_REQUIRE_DECODING_MASK
5718 | CODING_REQUIRE_ENCODING_MASK);
5719 else
5720 coding->common_flags = 0;
5721 if (! NILP (CODING_ATTR_POST_READ (attrs)))
5722 coding->common_flags |= CODING_REQUIRE_DECODING_MASK;
5723 if (! NILP (CODING_ATTR_PRE_WRITE (attrs)))
5724 coding->common_flags |= CODING_REQUIRE_ENCODING_MASK;
5725 if (! NILP (CODING_ATTR_FOR_UNIBYTE (attrs)))
5726 coding->common_flags |= CODING_FOR_UNIBYTE_MASK;
5728 val = CODING_ATTR_SAFE_CHARSETS (attrs);
5729 coding->max_charset_id = SCHARS (val) - 1;
5730 coding->safe_charsets = SDATA (val);
5731 coding->default_char = XINT (CODING_ATTR_DEFAULT_CHAR (attrs));
5732 coding->carryover_bytes = 0;
5733 coding->raw_destination = 0;
5735 coding_type = CODING_ATTR_TYPE (attrs);
5736 if (EQ (coding_type, Qundecided))
5738 coding->detector = NULL;
5739 coding->decoder = decode_coding_raw_text;
5740 coding->encoder = encode_coding_raw_text;
5741 coding->common_flags |= CODING_REQUIRE_DETECTION_MASK;
5742 coding->spec.undecided.inhibit_nbd
5743 = (encode_inhibit_flag
5744 (AREF (attrs, coding_attr_undecided_inhibit_null_byte_detection)));
5745 coding->spec.undecided.inhibit_ied
5746 = (encode_inhibit_flag
5747 (AREF (attrs, coding_attr_undecided_inhibit_iso_escape_detection)));
5748 coding->spec.undecided.prefer_utf_8
5749 = ! NILP (AREF (attrs, coding_attr_undecided_prefer_utf_8));
5751 else if (EQ (coding_type, Qiso_2022))
5753 int i;
5754 int flags = XINT (AREF (attrs, coding_attr_iso_flags));
5756 /* Invoke graphic register 0 to plane 0. */
5757 CODING_ISO_INVOCATION (coding, 0) = 0;
5758 /* Invoke graphic register 1 to plane 1 if we can use 8-bit. */
5759 CODING_ISO_INVOCATION (coding, 1)
5760 = (flags & CODING_ISO_FLAG_SEVEN_BITS ? -1 : 1);
5761 /* Setup the initial status of designation. */
5762 for (i = 0; i < 4; i++)
5763 CODING_ISO_DESIGNATION (coding, i) = CODING_ISO_INITIAL (coding, i);
5764 /* Not single shifting initially. */
5765 CODING_ISO_SINGLE_SHIFTING (coding) = 0;
5766 /* Beginning of buffer should also be regarded as bol. */
5767 CODING_ISO_BOL (coding) = 1;
5768 coding->detector = detect_coding_iso_2022;
5769 coding->decoder = decode_coding_iso_2022;
5770 coding->encoder = encode_coding_iso_2022;
5771 if (flags & CODING_ISO_FLAG_SAFE)
5772 coding->mode |= CODING_MODE_SAFE_ENCODING;
5773 coding->common_flags
5774 |= (CODING_REQUIRE_DECODING_MASK | CODING_REQUIRE_ENCODING_MASK
5775 | CODING_REQUIRE_FLUSHING_MASK);
5776 if (flags & CODING_ISO_FLAG_COMPOSITION)
5777 coding->common_flags |= CODING_ANNOTATE_COMPOSITION_MASK;
5778 if (flags & CODING_ISO_FLAG_DESIGNATION)
5779 coding->common_flags |= CODING_ANNOTATE_CHARSET_MASK;
5780 if (flags & CODING_ISO_FLAG_FULL_SUPPORT)
5782 setup_iso_safe_charsets (attrs);
5783 val = CODING_ATTR_SAFE_CHARSETS (attrs);
5784 coding->max_charset_id = SCHARS (val) - 1;
5785 coding->safe_charsets = SDATA (val);
5787 CODING_ISO_FLAGS (coding) = flags;
5788 CODING_ISO_CMP_STATUS (coding)->state = COMPOSING_NO;
5789 CODING_ISO_CMP_STATUS (coding)->method = COMPOSITION_NO;
5790 CODING_ISO_EXTSEGMENT_LEN (coding) = 0;
5791 CODING_ISO_EMBEDDED_UTF_8 (coding) = 0;
5793 else if (EQ (coding_type, Qcharset))
5795 coding->detector = detect_coding_charset;
5796 coding->decoder = decode_coding_charset;
5797 coding->encoder = encode_coding_charset;
5798 coding->common_flags
5799 |= (CODING_REQUIRE_DECODING_MASK | CODING_REQUIRE_ENCODING_MASK);
5801 else if (EQ (coding_type, Qutf_8))
5803 val = AREF (attrs, coding_attr_utf_bom);
5804 CODING_UTF_8_BOM (coding) = (CONSP (val) ? utf_detect_bom
5805 : EQ (val, Qt) ? utf_with_bom
5806 : utf_without_bom);
5807 coding->detector = detect_coding_utf_8;
5808 coding->decoder = decode_coding_utf_8;
5809 coding->encoder = encode_coding_utf_8;
5810 coding->common_flags
5811 |= (CODING_REQUIRE_DECODING_MASK | CODING_REQUIRE_ENCODING_MASK);
5812 if (CODING_UTF_8_BOM (coding) == utf_detect_bom)
5813 coding->common_flags |= CODING_REQUIRE_DETECTION_MASK;
5815 else if (EQ (coding_type, Qutf_16))
5817 val = AREF (attrs, coding_attr_utf_bom);
5818 CODING_UTF_16_BOM (coding) = (CONSP (val) ? utf_detect_bom
5819 : EQ (val, Qt) ? utf_with_bom
5820 : utf_without_bom);
5821 val = AREF (attrs, coding_attr_utf_16_endian);
5822 CODING_UTF_16_ENDIAN (coding) = (EQ (val, Qbig) ? utf_16_big_endian
5823 : utf_16_little_endian);
5824 CODING_UTF_16_SURROGATE (coding) = 0;
5825 coding->detector = detect_coding_utf_16;
5826 coding->decoder = decode_coding_utf_16;
5827 coding->encoder = encode_coding_utf_16;
5828 coding->common_flags
5829 |= (CODING_REQUIRE_DECODING_MASK | CODING_REQUIRE_ENCODING_MASK);
5830 if (CODING_UTF_16_BOM (coding) == utf_detect_bom)
5831 coding->common_flags |= CODING_REQUIRE_DETECTION_MASK;
5833 else if (EQ (coding_type, Qccl))
5835 coding->detector = detect_coding_ccl;
5836 coding->decoder = decode_coding_ccl;
5837 coding->encoder = encode_coding_ccl;
5838 coding->common_flags
5839 |= (CODING_REQUIRE_DECODING_MASK | CODING_REQUIRE_ENCODING_MASK
5840 | CODING_REQUIRE_FLUSHING_MASK);
5842 else if (EQ (coding_type, Qemacs_mule))
5844 coding->detector = detect_coding_emacs_mule;
5845 coding->decoder = decode_coding_emacs_mule;
5846 coding->encoder = encode_coding_emacs_mule;
5847 coding->common_flags
5848 |= (CODING_REQUIRE_DECODING_MASK | CODING_REQUIRE_ENCODING_MASK);
5849 if (! NILP (AREF (attrs, coding_attr_emacs_mule_full))
5850 && ! EQ (CODING_ATTR_CHARSET_LIST (attrs), Vemacs_mule_charset_list))
5852 Lisp_Object tail, safe_charsets;
5853 int max_charset_id = 0;
5855 for (tail = Vemacs_mule_charset_list; CONSP (tail);
5856 tail = XCDR (tail))
5857 if (max_charset_id < XFASTINT (XCAR (tail)))
5858 max_charset_id = XFASTINT (XCAR (tail));
5859 safe_charsets = make_uninit_string (max_charset_id + 1);
5860 memset (SDATA (safe_charsets), 255, max_charset_id + 1);
5861 for (tail = Vemacs_mule_charset_list; CONSP (tail);
5862 tail = XCDR (tail))
5863 SSET (safe_charsets, XFASTINT (XCAR (tail)), 0);
5864 coding->max_charset_id = max_charset_id;
5865 coding->safe_charsets = SDATA (safe_charsets);
5867 coding->spec.emacs_mule.cmp_status.state = COMPOSING_NO;
5868 coding->spec.emacs_mule.cmp_status.method = COMPOSITION_NO;
5870 else if (EQ (coding_type, Qshift_jis))
5872 coding->detector = detect_coding_sjis;
5873 coding->decoder = decode_coding_sjis;
5874 coding->encoder = encode_coding_sjis;
5875 coding->common_flags
5876 |= (CODING_REQUIRE_DECODING_MASK | CODING_REQUIRE_ENCODING_MASK);
5878 else if (EQ (coding_type, Qbig5))
5880 coding->detector = detect_coding_big5;
5881 coding->decoder = decode_coding_big5;
5882 coding->encoder = encode_coding_big5;
5883 coding->common_flags
5884 |= (CODING_REQUIRE_DECODING_MASK | CODING_REQUIRE_ENCODING_MASK);
5886 else /* EQ (coding_type, Qraw_text) */
5888 coding->detector = NULL;
5889 coding->decoder = decode_coding_raw_text;
5890 coding->encoder = encode_coding_raw_text;
5891 if (! EQ (eol_type, Qunix))
5893 coding->common_flags |= CODING_REQUIRE_DECODING_MASK;
5894 if (! VECTORP (eol_type))
5895 coding->common_flags |= CODING_REQUIRE_ENCODING_MASK;
5900 return;
5903 /* Return a list of charsets supported by CODING. */
5905 Lisp_Object
5906 coding_charset_list (struct coding_system *coding)
5908 Lisp_Object attrs, charset_list;
5910 CODING_GET_INFO (coding, attrs, charset_list);
5911 if (EQ (CODING_ATTR_TYPE (attrs), Qiso_2022))
5913 int flags = XINT (AREF (attrs, coding_attr_iso_flags));
5915 if (flags & CODING_ISO_FLAG_FULL_SUPPORT)
5916 charset_list = Viso_2022_charset_list;
5918 else if (EQ (CODING_ATTR_TYPE (attrs), Qemacs_mule))
5920 charset_list = Vemacs_mule_charset_list;
5922 return charset_list;
5926 /* Return a list of charsets supported by CODING-SYSTEM. */
5928 Lisp_Object
5929 coding_system_charset_list (Lisp_Object coding_system)
5931 ptrdiff_t id;
5932 Lisp_Object attrs, charset_list;
5934 CHECK_CODING_SYSTEM_GET_ID (coding_system, id);
5935 attrs = CODING_ID_ATTRS (id);
5937 if (EQ (CODING_ATTR_TYPE (attrs), Qiso_2022))
5939 int flags = XINT (AREF (attrs, coding_attr_iso_flags));
5941 if (flags & CODING_ISO_FLAG_FULL_SUPPORT)
5942 charset_list = Viso_2022_charset_list;
5943 else
5944 charset_list = CODING_ATTR_CHARSET_LIST (attrs);
5946 else if (EQ (CODING_ATTR_TYPE (attrs), Qemacs_mule))
5948 charset_list = Vemacs_mule_charset_list;
5950 else
5952 charset_list = CODING_ATTR_CHARSET_LIST (attrs);
5954 return charset_list;
5958 /* Return raw-text or one of its subsidiaries that has the same
5959 eol_type as CODING-SYSTEM. */
5961 Lisp_Object
5962 raw_text_coding_system (Lisp_Object coding_system)
5964 Lisp_Object spec, attrs;
5965 Lisp_Object eol_type, raw_text_eol_type;
5967 if (NILP (coding_system))
5968 return Qraw_text;
5969 spec = CODING_SYSTEM_SPEC (coding_system);
5970 attrs = AREF (spec, 0);
5972 if (EQ (CODING_ATTR_TYPE (attrs), Qraw_text))
5973 return coding_system;
5975 eol_type = AREF (spec, 2);
5976 if (VECTORP (eol_type))
5977 return Qraw_text;
5978 spec = CODING_SYSTEM_SPEC (Qraw_text);
5979 raw_text_eol_type = AREF (spec, 2);
5980 return (EQ (eol_type, Qunix) ? AREF (raw_text_eol_type, 0)
5981 : EQ (eol_type, Qdos) ? AREF (raw_text_eol_type, 1)
5982 : AREF (raw_text_eol_type, 2));
5985 /* Return true if CODING corresponds to raw-text coding-system. */
5987 bool
5988 raw_text_coding_system_p (struct coding_system *coding)
5990 return (coding->decoder == decode_coding_raw_text
5991 && coding->encoder == encode_coding_raw_text) ? true : false;
5995 /* If CODING_SYSTEM doesn't specify end-of-line format, return one of
5996 the subsidiary that has the same eol-spec as PARENT (if it is not
5997 nil and specifies end-of-line format) or the system's setting
5998 (system_eol_type). */
6000 Lisp_Object
6001 coding_inherit_eol_type (Lisp_Object coding_system, Lisp_Object parent)
6003 Lisp_Object spec, eol_type;
6005 if (NILP (coding_system))
6006 coding_system = Qraw_text;
6007 else
6008 CHECK_CODING_SYSTEM (coding_system);
6009 spec = CODING_SYSTEM_SPEC (coding_system);
6010 eol_type = AREF (spec, 2);
6011 if (VECTORP (eol_type))
6013 Lisp_Object parent_eol_type;
6015 if (! NILP (parent))
6017 Lisp_Object parent_spec;
6019 CHECK_CODING_SYSTEM (parent);
6020 parent_spec = CODING_SYSTEM_SPEC (parent);
6021 parent_eol_type = AREF (parent_spec, 2);
6022 if (VECTORP (parent_eol_type))
6023 parent_eol_type = system_eol_type;
6025 else
6026 parent_eol_type = system_eol_type;
6027 if (EQ (parent_eol_type, Qunix))
6028 coding_system = AREF (eol_type, 0);
6029 else if (EQ (parent_eol_type, Qdos))
6030 coding_system = AREF (eol_type, 1);
6031 else if (EQ (parent_eol_type, Qmac))
6032 coding_system = AREF (eol_type, 2);
6034 return coding_system;
6038 /* Check if text-conversion and eol-conversion of CODING_SYSTEM are
6039 decided for writing to a process. If not, complement them, and
6040 return a new coding system. */
6042 Lisp_Object
6043 complement_process_encoding_system (Lisp_Object coding_system)
6045 Lisp_Object coding_base = Qnil, eol_base = Qnil;
6046 Lisp_Object spec, attrs;
6047 int i;
6049 for (i = 0; i < 3; i++)
6051 if (i == 1)
6052 coding_system = CDR_SAFE (Vdefault_process_coding_system);
6053 else if (i == 2)
6054 coding_system = preferred_coding_system ();
6055 spec = CODING_SYSTEM_SPEC (coding_system);
6056 if (NILP (spec))
6057 continue;
6058 attrs = AREF (spec, 0);
6059 if (NILP (coding_base) && ! EQ (CODING_ATTR_TYPE (attrs), Qundecided))
6060 coding_base = CODING_ATTR_BASE_NAME (attrs);
6061 if (NILP (eol_base) && ! VECTORP (AREF (spec, 2)))
6062 eol_base = coding_system;
6063 if (! NILP (coding_base) && ! NILP (eol_base))
6064 break;
6067 if (i > 0)
6068 /* The original CODING_SYSTEM didn't specify text-conversion or
6069 eol-conversion. Be sure that we return a fully complemented
6070 coding system. */
6071 coding_system = coding_inherit_eol_type (coding_base, eol_base);
6072 return coding_system;
6076 /* Emacs has a mechanism to automatically detect a coding system if it
6077 is one of Emacs' internal format, ISO2022, SJIS, and BIG5. But,
6078 it's impossible to distinguish some coding systems accurately
6079 because they use the same range of codes. So, at first, coding
6080 systems are categorized into 7, those are:
6082 o coding-category-emacs-mule
6084 The category for a coding system which has the same code range
6085 as Emacs' internal format. Assigned the coding-system (Lisp
6086 symbol) `emacs-mule' by default.
6088 o coding-category-sjis
6090 The category for a coding system which has the same code range
6091 as SJIS. Assigned the coding-system (Lisp
6092 symbol) `japanese-shift-jis' by default.
6094 o coding-category-iso-7
6096 The category for a coding system which has the same code range
6097 as ISO2022 of 7-bit environment. This doesn't use any locking
6098 shift and single shift functions. This can encode/decode all
6099 charsets. Assigned the coding-system (Lisp symbol)
6100 `iso-2022-7bit' by default.
6102 o coding-category-iso-7-tight
6104 Same as coding-category-iso-7 except that this can
6105 encode/decode only the specified charsets.
6107 o coding-category-iso-8-1
6109 The category for a coding system which has the same code range
6110 as ISO2022 of 8-bit environment and graphic plane 1 used only
6111 for DIMENSION1 charset. This doesn't use any locking shift
6112 and single shift functions. Assigned the coding-system (Lisp
6113 symbol) `iso-latin-1' by default.
6115 o coding-category-iso-8-2
6117 The category for a coding system which has the same code range
6118 as ISO2022 of 8-bit environment and graphic plane 1 used only
6119 for DIMENSION2 charset. This doesn't use any locking shift
6120 and single shift functions. Assigned the coding-system (Lisp
6121 symbol) `japanese-iso-8bit' by default.
6123 o coding-category-iso-7-else
6125 The category for a coding system which has the same code range
6126 as ISO2022 of 7-bit environment but uses locking shift or
6127 single shift functions. Assigned the coding-system (Lisp
6128 symbol) `iso-2022-7bit-lock' by default.
6130 o coding-category-iso-8-else
6132 The category for a coding system which has the same code range
6133 as ISO2022 of 8-bit environment but uses locking shift or
6134 single shift functions. Assigned the coding-system (Lisp
6135 symbol) `iso-2022-8bit-ss2' by default.
6137 o coding-category-big5
6139 The category for a coding system which has the same code range
6140 as BIG5. Assigned the coding-system (Lisp symbol)
6141 `cn-big5' by default.
6143 o coding-category-utf-8
6145 The category for a coding system which has the same code range
6146 as UTF-8 (cf. RFC3629). Assigned the coding-system (Lisp
6147 symbol) `utf-8' by default.
6149 o coding-category-utf-16-be
6151 The category for a coding system in which a text has an
6152 Unicode signature (cf. Unicode Standard) in the order of BIG
6153 endian at the head. Assigned the coding-system (Lisp symbol)
6154 `utf-16-be' by default.
6156 o coding-category-utf-16-le
6158 The category for a coding system in which a text has an
6159 Unicode signature (cf. Unicode Standard) in the order of
6160 LITTLE endian at the head. Assigned the coding-system (Lisp
6161 symbol) `utf-16-le' by default.
6163 o coding-category-ccl
6165 The category for a coding system of which encoder/decoder is
6166 written in CCL programs. The default value is nil, i.e., no
6167 coding system is assigned.
6169 o coding-category-binary
6171 The category for a coding system not categorized in any of the
6172 above. Assigned the coding-system (Lisp symbol)
6173 `no-conversion' by default.
6175 Each of them is a Lisp symbol and the value is an actual
6176 `coding-system's (this is also a Lisp symbol) assigned by a user.
6177 What Emacs does actually is to detect a category of coding system.
6178 Then, it uses a `coding-system' assigned to it. If Emacs can't
6179 decide only one possible category, it selects a category of the
6180 highest priority. Priorities of categories are also specified by a
6181 user in a Lisp variable `coding-category-list'.
6185 static Lisp_Object adjust_coding_eol_type (struct coding_system *coding,
6186 int eol_seen);
6189 /* Return the number of ASCII characters at the head of the source.
6190 By side effects, set coding->head_ascii and update
6191 coding->eol_seen. The value of coding->eol_seen is "logical or" of
6192 EOL_SEEN_LF, EOL_SEEN_CR, and EOL_SEEN_CRLF, but the value is
6193 reliable only when all the source bytes are ASCII. */
6195 static ptrdiff_t
6196 check_ascii (struct coding_system *coding)
6198 const unsigned char *src, *end;
6199 Lisp_Object eol_type = CODING_ID_EOL_TYPE (coding->id);
6200 int eol_seen = coding->eol_seen;
6202 coding_set_source (coding);
6203 src = coding->source;
6204 end = src + coding->src_bytes;
6206 if (inhibit_eol_conversion
6207 || SYMBOLP (eol_type))
6209 /* We don't have to check EOL format. */
6210 while (src < end && !( *src & 0x80))
6212 if (*src++ == '\n')
6213 eol_seen |= EOL_SEEN_LF;
6216 else
6218 end--; /* We look ahead one byte for "CR LF". */
6219 while (src < end)
6221 int c = *src;
6223 if (c & 0x80)
6224 break;
6225 src++;
6226 if (c == '\r')
6228 if (*src == '\n')
6230 eol_seen |= EOL_SEEN_CRLF;
6231 src++;
6233 else
6234 eol_seen |= EOL_SEEN_CR;
6236 else if (c == '\n')
6237 eol_seen |= EOL_SEEN_LF;
6239 if (src == end)
6241 int c = *src;
6243 /* All bytes but the last one C are ASCII. */
6244 if (! (c & 0x80))
6246 if (c == '\r')
6247 eol_seen |= EOL_SEEN_CR;
6248 else if (c == '\n')
6249 eol_seen |= EOL_SEEN_LF;
6250 src++;
6254 coding->head_ascii = src - coding->source;
6255 coding->eol_seen = eol_seen;
6256 return (coding->head_ascii);
6260 /* Return the number of characters at the source if all the bytes are
6261 valid UTF-8 (of Unicode range). Otherwise, return -1. By side
6262 effects, update coding->eol_seen. The value of coding->eol_seen is
6263 "logical or" of EOL_SEEN_LF, EOL_SEEN_CR, and EOL_SEEN_CRLF, but
6264 the value is reliable only when all the source bytes are valid
6265 UTF-8. */
6267 static ptrdiff_t
6268 check_utf_8 (struct coding_system *coding)
6270 const unsigned char *src, *end;
6271 int eol_seen;
6272 ptrdiff_t nchars = coding->head_ascii;
6274 if (coding->head_ascii < 0)
6275 check_ascii (coding);
6276 else
6277 coding_set_source (coding);
6278 src = coding->source + coding->head_ascii;
6279 /* We look ahead one byte for CR LF. */
6280 end = coding->source + coding->src_bytes - 1;
6281 eol_seen = coding->eol_seen;
6282 while (src < end)
6284 int c = *src;
6286 if (UTF_8_1_OCTET_P (*src))
6288 src++;
6289 if (c < 0x20)
6291 if (c == '\r')
6293 if (*src == '\n')
6295 eol_seen |= EOL_SEEN_CRLF;
6296 src++;
6297 nchars++;
6299 else
6300 eol_seen |= EOL_SEEN_CR;
6302 else if (c == '\n')
6303 eol_seen |= EOL_SEEN_LF;
6306 else if (UTF_8_2_OCTET_LEADING_P (c))
6308 if (c < 0xC2 /* overlong sequence */
6309 || src + 1 >= end
6310 || ! UTF_8_EXTRA_OCTET_P (src[1]))
6311 return -1;
6312 src += 2;
6314 else if (UTF_8_3_OCTET_LEADING_P (c))
6316 if (src + 2 >= end
6317 || ! (UTF_8_EXTRA_OCTET_P (src[1])
6318 && UTF_8_EXTRA_OCTET_P (src[2])))
6319 return -1;
6320 c = (((c & 0xF) << 12)
6321 | ((src[1] & 0x3F) << 6) | (src[2] & 0x3F));
6322 if (c < 0x800 /* overlong sequence */
6323 || (c >= 0xd800 && c < 0xe000)) /* surrogates (invalid) */
6324 return -1;
6325 src += 3;
6327 else if (UTF_8_4_OCTET_LEADING_P (c))
6329 if (src + 3 >= end
6330 || ! (UTF_8_EXTRA_OCTET_P (src[1])
6331 && UTF_8_EXTRA_OCTET_P (src[2])
6332 && UTF_8_EXTRA_OCTET_P (src[3])))
6333 return -1;
6334 c = (((c & 0x7) << 18) | ((src[1] & 0x3F) << 12)
6335 | ((src[2] & 0x3F) << 6) | (src[3] & 0x3F));
6336 if (c < 0x10000 /* overlong sequence */
6337 || c >= 0x110000) /* non-Unicode character */
6338 return -1;
6339 src += 4;
6341 else
6342 return -1;
6343 nchars++;
6346 if (src == end)
6348 if (! UTF_8_1_OCTET_P (*src))
6349 return -1;
6350 nchars++;
6351 if (*src == '\r')
6352 eol_seen |= EOL_SEEN_CR;
6353 else if (*src == '\n')
6354 eol_seen |= EOL_SEEN_LF;
6356 coding->eol_seen = eol_seen;
6357 return nchars;
6361 /* Detect how end-of-line of a text of length SRC_BYTES pointed by
6362 SOURCE is encoded. If CATEGORY is one of
6363 coding_category_utf_16_XXXX, assume that CR and LF are encoded by
6364 two-byte, else they are encoded by one-byte.
6366 Return one of EOL_SEEN_XXX. */
6368 #define MAX_EOL_CHECK_COUNT 3
6370 static int
6371 detect_eol (const unsigned char *source, ptrdiff_t src_bytes,
6372 enum coding_category category)
6374 const unsigned char *src = source, *src_end = src + src_bytes;
6375 unsigned char c;
6376 int total = 0;
6377 int eol_seen = EOL_SEEN_NONE;
6379 if ((1 << category) & CATEGORY_MASK_UTF_16)
6381 bool msb = category == (coding_category_utf_16_le
6382 | coding_category_utf_16_le_nosig);
6383 bool lsb = !msb;
6385 while (src + 1 < src_end)
6387 c = src[lsb];
6388 if (src[msb] == 0 && (c == '\n' || c == '\r'))
6390 int this_eol;
6392 if (c == '\n')
6393 this_eol = EOL_SEEN_LF;
6394 else if (src + 3 >= src_end
6395 || src[msb + 2] != 0
6396 || src[lsb + 2] != '\n')
6397 this_eol = EOL_SEEN_CR;
6398 else
6400 this_eol = EOL_SEEN_CRLF;
6401 src += 2;
6404 if (eol_seen == EOL_SEEN_NONE)
6405 /* This is the first end-of-line. */
6406 eol_seen = this_eol;
6407 else if (eol_seen != this_eol)
6409 /* The found type is different from what found before.
6410 Allow for stray ^M characters in DOS EOL files. */
6411 if ((eol_seen == EOL_SEEN_CR && this_eol == EOL_SEEN_CRLF)
6412 || (eol_seen == EOL_SEEN_CRLF
6413 && this_eol == EOL_SEEN_CR))
6414 eol_seen = EOL_SEEN_CRLF;
6415 else
6417 eol_seen = EOL_SEEN_LF;
6418 break;
6421 if (++total == MAX_EOL_CHECK_COUNT)
6422 break;
6424 src += 2;
6427 else
6428 while (src < src_end)
6430 c = *src++;
6431 if (c == '\n' || c == '\r')
6433 int this_eol;
6435 if (c == '\n')
6436 this_eol = EOL_SEEN_LF;
6437 else if (src >= src_end || *src != '\n')
6438 this_eol = EOL_SEEN_CR;
6439 else
6440 this_eol = EOL_SEEN_CRLF, src++;
6442 if (eol_seen == EOL_SEEN_NONE)
6443 /* This is the first end-of-line. */
6444 eol_seen = this_eol;
6445 else if (eol_seen != this_eol)
6447 /* The found type is different from what found before.
6448 Allow for stray ^M characters in DOS EOL files. */
6449 if ((eol_seen == EOL_SEEN_CR && this_eol == EOL_SEEN_CRLF)
6450 || (eol_seen == EOL_SEEN_CRLF && this_eol == EOL_SEEN_CR))
6451 eol_seen = EOL_SEEN_CRLF;
6452 else
6454 eol_seen = EOL_SEEN_LF;
6455 break;
6458 if (++total == MAX_EOL_CHECK_COUNT)
6459 break;
6462 return eol_seen;
6466 static Lisp_Object
6467 adjust_coding_eol_type (struct coding_system *coding, int eol_seen)
6469 Lisp_Object eol_type;
6471 eol_type = CODING_ID_EOL_TYPE (coding->id);
6472 if (! VECTORP (eol_type))
6473 /* Already adjusted. */
6474 return eol_type;
6475 if (eol_seen & EOL_SEEN_LF)
6477 coding->id = CODING_SYSTEM_ID (AREF (eol_type, 0));
6478 eol_type = Qunix;
6480 else if (eol_seen & EOL_SEEN_CRLF)
6482 coding->id = CODING_SYSTEM_ID (AREF (eol_type, 1));
6483 eol_type = Qdos;
6485 else if (eol_seen & EOL_SEEN_CR)
6487 coding->id = CODING_SYSTEM_ID (AREF (eol_type, 2));
6488 eol_type = Qmac;
6490 return eol_type;
6493 /* Detect how a text specified in CODING is encoded. If a coding
6494 system is detected, update fields of CODING by the detected coding
6495 system. */
6497 static void
6498 detect_coding (struct coding_system *coding)
6500 const unsigned char *src, *src_end;
6501 unsigned int saved_mode = coding->mode;
6502 Lisp_Object found = Qnil;
6503 Lisp_Object eol_type = CODING_ID_EOL_TYPE (coding->id);
6505 coding->consumed = coding->consumed_char = 0;
6506 coding->produced = coding->produced_char = 0;
6507 coding_set_source (coding);
6509 src_end = coding->source + coding->src_bytes;
6511 coding->eol_seen = EOL_SEEN_NONE;
6512 /* If we have not yet decided the text encoding type, detect it
6513 now. */
6514 if (EQ (CODING_ATTR_TYPE (CODING_ID_ATTRS (coding->id)), Qundecided))
6516 int c, i;
6517 struct coding_detection_info detect_info;
6518 bool null_byte_found = 0, eight_bit_found = 0;
6519 bool inhibit_nbd = inhibit_flag (coding->spec.undecided.inhibit_nbd,
6520 inhibit_null_byte_detection);
6521 bool inhibit_ied = inhibit_flag (coding->spec.undecided.inhibit_ied,
6522 inhibit_iso_escape_detection);
6523 bool prefer_utf_8 = coding->spec.undecided.prefer_utf_8;
6525 coding->head_ascii = 0;
6526 detect_info.checked = detect_info.found = detect_info.rejected = 0;
6527 for (src = coding->source; src < src_end; src++)
6529 c = *src;
6530 if (c & 0x80)
6532 eight_bit_found = 1;
6533 if (null_byte_found)
6534 break;
6536 else if (c < 0x20)
6538 if ((c == ISO_CODE_ESC || c == ISO_CODE_SI || c == ISO_CODE_SO)
6539 && ! inhibit_ied
6540 && ! detect_info.checked)
6542 if (detect_coding_iso_2022 (coding, &detect_info))
6544 /* We have scanned the whole data. */
6545 if (! (detect_info.rejected & CATEGORY_MASK_ISO_7_ELSE))
6547 /* We didn't find an 8-bit code. We may
6548 have found a null-byte, but it's very
6549 rare that a binary file conforms to
6550 ISO-2022. */
6551 src = src_end;
6552 coding->head_ascii = src - coding->source;
6554 detect_info.rejected |= ~CATEGORY_MASK_ISO_ESCAPE;
6555 break;
6558 else if (! c && !inhibit_nbd)
6560 null_byte_found = 1;
6561 if (eight_bit_found)
6562 break;
6564 else if (! disable_ascii_optimization
6565 && ! inhibit_eol_conversion)
6567 if (c == '\r')
6569 if (src < src_end && src[1] == '\n')
6571 coding->eol_seen |= EOL_SEEN_CRLF;
6572 src++;
6573 if (! eight_bit_found)
6574 coding->head_ascii++;
6576 else
6577 coding->eol_seen |= EOL_SEEN_CR;
6579 else if (c == '\n')
6581 coding->eol_seen |= EOL_SEEN_LF;
6585 if (! eight_bit_found)
6586 coding->head_ascii++;
6588 else if (! eight_bit_found)
6589 coding->head_ascii++;
6592 if (null_byte_found || eight_bit_found
6593 || coding->head_ascii < coding->src_bytes
6594 || detect_info.found)
6596 enum coding_category category;
6597 struct coding_system *this;
6599 if (coding->head_ascii == coding->src_bytes)
6600 /* As all bytes are 7-bit, we can ignore non-ISO-2022 codings. */
6601 for (i = 0; i < coding_category_raw_text; i++)
6603 category = coding_priorities[i];
6604 this = coding_categories + category;
6605 if (detect_info.found & (1 << category))
6606 break;
6608 else
6610 if (null_byte_found)
6612 detect_info.checked |= ~CATEGORY_MASK_UTF_16;
6613 detect_info.rejected |= ~CATEGORY_MASK_UTF_16;
6615 else if (prefer_utf_8
6616 && detect_coding_utf_8 (coding, &detect_info))
6618 detect_info.checked |= ~CATEGORY_MASK_UTF_8;
6619 detect_info.rejected |= ~CATEGORY_MASK_UTF_8;
6621 for (i = 0; i < coding_category_raw_text; i++)
6623 category = coding_priorities[i];
6624 this = coding_categories + category;
6625 /* Some of this->detector (e.g. detect_coding_sjis)
6626 require this information. */
6627 coding->id = this->id;
6628 if (this->id < 0)
6630 /* No coding system of this category is defined. */
6631 detect_info.rejected |= (1 << category);
6633 else if (category >= coding_category_raw_text)
6634 continue;
6635 else if (detect_info.checked & (1 << category))
6637 if (detect_info.found & (1 << category))
6638 break;
6640 else if ((*(this->detector)) (coding, &detect_info)
6641 && detect_info.found & (1 << category))
6642 break;
6646 if (i < coding_category_raw_text)
6648 if (category == coding_category_utf_8_auto)
6650 Lisp_Object coding_systems;
6652 coding_systems = AREF (CODING_ID_ATTRS (this->id),
6653 coding_attr_utf_bom);
6654 if (CONSP (coding_systems))
6656 if (detect_info.found & CATEGORY_MASK_UTF_8_SIG)
6657 found = XCAR (coding_systems);
6658 else
6659 found = XCDR (coding_systems);
6661 else
6662 found = CODING_ID_NAME (this->id);
6664 else if (category == coding_category_utf_16_auto)
6666 Lisp_Object coding_systems;
6668 coding_systems = AREF (CODING_ID_ATTRS (this->id),
6669 coding_attr_utf_bom);
6670 if (CONSP (coding_systems))
6672 if (detect_info.found & CATEGORY_MASK_UTF_16_LE)
6673 found = XCAR (coding_systems);
6674 else if (detect_info.found & CATEGORY_MASK_UTF_16_BE)
6675 found = XCDR (coding_systems);
6677 else
6678 found = CODING_ID_NAME (this->id);
6680 else
6681 found = CODING_ID_NAME (this->id);
6683 else if (null_byte_found)
6684 found = Qno_conversion;
6685 else if ((detect_info.rejected & CATEGORY_MASK_ANY)
6686 == CATEGORY_MASK_ANY)
6687 found = Qraw_text;
6688 else if (detect_info.rejected)
6689 for (i = 0; i < coding_category_raw_text; i++)
6690 if (! (detect_info.rejected & (1 << coding_priorities[i])))
6692 this = coding_categories + coding_priorities[i];
6693 found = CODING_ID_NAME (this->id);
6694 break;
6698 else if (XINT (CODING_ATTR_CATEGORY (CODING_ID_ATTRS (coding->id)))
6699 == coding_category_utf_8_auto)
6701 Lisp_Object coding_systems;
6702 struct coding_detection_info detect_info;
6704 coding_systems
6705 = AREF (CODING_ID_ATTRS (coding->id), coding_attr_utf_bom);
6706 detect_info.found = detect_info.rejected = 0;
6707 if (check_ascii (coding) == coding->src_bytes)
6709 if (CONSP (coding_systems))
6710 found = XCDR (coding_systems);
6712 else
6714 if (CONSP (coding_systems)
6715 && detect_coding_utf_8 (coding, &detect_info))
6717 if (detect_info.found & CATEGORY_MASK_UTF_8_SIG)
6718 found = XCAR (coding_systems);
6719 else
6720 found = XCDR (coding_systems);
6724 else if (XINT (CODING_ATTR_CATEGORY (CODING_ID_ATTRS (coding->id)))
6725 == coding_category_utf_16_auto)
6727 Lisp_Object coding_systems;
6728 struct coding_detection_info detect_info;
6730 coding_systems
6731 = AREF (CODING_ID_ATTRS (coding->id), coding_attr_utf_bom);
6732 detect_info.found = detect_info.rejected = 0;
6733 coding->head_ascii = 0;
6734 if (CONSP (coding_systems)
6735 && detect_coding_utf_16 (coding, &detect_info))
6737 if (detect_info.found & CATEGORY_MASK_UTF_16_LE)
6738 found = XCAR (coding_systems);
6739 else if (detect_info.found & CATEGORY_MASK_UTF_16_BE)
6740 found = XCDR (coding_systems);
6744 if (! NILP (found))
6746 int specified_eol = (VECTORP (eol_type) ? EOL_SEEN_NONE
6747 : EQ (eol_type, Qdos) ? EOL_SEEN_CRLF
6748 : EQ (eol_type, Qmac) ? EOL_SEEN_CR
6749 : EOL_SEEN_LF);
6751 setup_coding_system (found, coding);
6752 if (specified_eol != EOL_SEEN_NONE)
6753 adjust_coding_eol_type (coding, specified_eol);
6756 coding->mode = saved_mode;
6760 static void
6761 decode_eol (struct coding_system *coding)
6763 Lisp_Object eol_type;
6764 unsigned char *p, *pbeg, *pend;
6766 eol_type = CODING_ID_EOL_TYPE (coding->id);
6767 if (EQ (eol_type, Qunix) || inhibit_eol_conversion)
6768 return;
6770 if (NILP (coding->dst_object))
6771 pbeg = coding->destination;
6772 else
6773 pbeg = BYTE_POS_ADDR (coding->dst_pos_byte);
6774 pend = pbeg + coding->produced;
6776 if (VECTORP (eol_type))
6778 int eol_seen = EOL_SEEN_NONE;
6780 for (p = pbeg; p < pend; p++)
6782 if (*p == '\n')
6783 eol_seen |= EOL_SEEN_LF;
6784 else if (*p == '\r')
6786 if (p + 1 < pend && *(p + 1) == '\n')
6788 eol_seen |= EOL_SEEN_CRLF;
6789 p++;
6791 else
6792 eol_seen |= EOL_SEEN_CR;
6795 /* Handle DOS-style EOLs in a file with stray ^M characters. */
6796 if ((eol_seen & EOL_SEEN_CRLF) != 0
6797 && (eol_seen & EOL_SEEN_CR) != 0
6798 && (eol_seen & EOL_SEEN_LF) == 0)
6799 eol_seen = EOL_SEEN_CRLF;
6800 else if (eol_seen != EOL_SEEN_NONE
6801 && eol_seen != EOL_SEEN_LF
6802 && eol_seen != EOL_SEEN_CRLF
6803 && eol_seen != EOL_SEEN_CR)
6804 eol_seen = EOL_SEEN_LF;
6805 if (eol_seen != EOL_SEEN_NONE)
6806 eol_type = adjust_coding_eol_type (coding, eol_seen);
6809 if (EQ (eol_type, Qmac))
6811 for (p = pbeg; p < pend; p++)
6812 if (*p == '\r')
6813 *p = '\n';
6815 else if (EQ (eol_type, Qdos))
6817 ptrdiff_t n = 0;
6818 ptrdiff_t pos = coding->dst_pos;
6819 ptrdiff_t pos_byte = coding->dst_pos_byte;
6820 ptrdiff_t pos_end = pos_byte + coding->produced - 1;
6822 /* This assertion is here instead of code, now deleted, that
6823 handled the NILP case, which no longer happens with the
6824 current codebase. */
6825 eassert (!NILP (coding->dst_object));
6827 while (pos_byte < pos_end)
6829 int incr;
6831 p = BYTE_POS_ADDR (pos_byte);
6832 if (coding->dst_multibyte)
6833 incr = BYTES_BY_CHAR_HEAD (*p);
6834 else
6835 incr = 1;
6837 if (*p == '\r' && p[1] == '\n')
6839 del_range_2 (pos, pos_byte, pos + 1, pos_byte + 1, 0);
6840 n++;
6841 pos_end--;
6843 pos++;
6844 pos_byte += incr;
6846 coding->produced -= n;
6847 coding->produced_char -= n;
6852 /* MAX_LOOKUP's maximum value. MAX_LOOKUP is an int and so cannot
6853 exceed INT_MAX. Also, MAX_LOOKUP is multiplied by sizeof (int) for
6854 alloca, so it cannot exceed MAX_ALLOCA / sizeof (int). */
6855 enum { MAX_LOOKUP_MAX = min (INT_MAX, MAX_ALLOCA / sizeof (int)) };
6857 /* Return a translation table (or list of them) from coding system
6858 attribute vector ATTRS for encoding (if ENCODEP) or decoding (if
6859 not ENCODEP). */
6861 static Lisp_Object
6862 get_translation_table (Lisp_Object attrs, bool encodep, int *max_lookup)
6864 Lisp_Object standard, translation_table;
6865 Lisp_Object val;
6867 if (NILP (Venable_character_translation))
6869 if (max_lookup)
6870 *max_lookup = 0;
6871 return Qnil;
6873 if (encodep)
6874 translation_table = CODING_ATTR_ENCODE_TBL (attrs),
6875 standard = Vstandard_translation_table_for_encode;
6876 else
6877 translation_table = CODING_ATTR_DECODE_TBL (attrs),
6878 standard = Vstandard_translation_table_for_decode;
6879 if (NILP (translation_table))
6880 translation_table = standard;
6881 else
6883 if (SYMBOLP (translation_table))
6884 translation_table = Fget (translation_table, Qtranslation_table);
6885 else if (CONSP (translation_table))
6887 translation_table = Fcopy_sequence (translation_table);
6888 for (val = translation_table; CONSP (val); val = XCDR (val))
6889 if (SYMBOLP (XCAR (val)))
6890 XSETCAR (val, Fget (XCAR (val), Qtranslation_table));
6892 if (CHAR_TABLE_P (standard))
6894 if (CONSP (translation_table))
6895 translation_table = nconc2 (translation_table, list1 (standard));
6896 else
6897 translation_table = list2 (translation_table, standard);
6901 if (max_lookup)
6903 *max_lookup = 1;
6904 if (CHAR_TABLE_P (translation_table)
6905 && CHAR_TABLE_EXTRA_SLOTS (XCHAR_TABLE (translation_table)) > 1)
6907 val = XCHAR_TABLE (translation_table)->extras[1];
6908 if (NATNUMP (val) && *max_lookup < XFASTINT (val))
6909 *max_lookup = min (XFASTINT (val), MAX_LOOKUP_MAX);
6911 else if (CONSP (translation_table))
6913 Lisp_Object tail;
6915 for (tail = translation_table; CONSP (tail); tail = XCDR (tail))
6916 if (CHAR_TABLE_P (XCAR (tail))
6917 && CHAR_TABLE_EXTRA_SLOTS (XCHAR_TABLE (XCAR (tail))) > 1)
6919 Lisp_Object tailval = XCHAR_TABLE (XCAR (tail))->extras[1];
6920 if (NATNUMP (tailval) && *max_lookup < XFASTINT (tailval))
6921 *max_lookup = min (XFASTINT (tailval), MAX_LOOKUP_MAX);
6925 return translation_table;
6928 #define LOOKUP_TRANSLATION_TABLE(table, c, trans) \
6929 do { \
6930 trans = Qnil; \
6931 if (CHAR_TABLE_P (table)) \
6933 trans = CHAR_TABLE_REF (table, c); \
6934 if (CHARACTERP (trans)) \
6935 c = XFASTINT (trans), trans = Qnil; \
6937 else if (CONSP (table)) \
6939 Lisp_Object tail; \
6941 for (tail = table; CONSP (tail); tail = XCDR (tail)) \
6942 if (CHAR_TABLE_P (XCAR (tail))) \
6944 trans = CHAR_TABLE_REF (XCAR (tail), c); \
6945 if (CHARACTERP (trans)) \
6946 c = XFASTINT (trans), trans = Qnil; \
6947 else if (! NILP (trans)) \
6948 break; \
6951 } while (0)
6954 /* Return a translation of character(s) at BUF according to TRANS.
6955 TRANS is TO-CHAR, [TO-CHAR ...], or ((FROM . TO) ...) where FROM =
6956 [FROM-CHAR ...], TO is TO-CHAR or [TO-CHAR ...]. The return value
6957 is TO-CHAR or [TO-CHAR ...] if a translation is found, Qnil if not
6958 found, or Qt if BUF is too short to lookup characters in FROM. As
6959 a side effect, if a translation is found, *NCHARS is set to the
6960 number of characters being translated. */
6962 static Lisp_Object
6963 get_translation (Lisp_Object trans, int *buf, int *buf_end, ptrdiff_t *nchars)
6965 if (INTEGERP (trans) || VECTORP (trans))
6967 *nchars = 1;
6968 return trans;
6970 for (; CONSP (trans); trans = XCDR (trans))
6972 Lisp_Object val = XCAR (trans);
6973 Lisp_Object from = XCAR (val);
6974 ptrdiff_t len = ASIZE (from);
6975 ptrdiff_t i;
6977 for (i = 0; i < len; i++)
6979 if (buf + i == buf_end)
6980 return Qt;
6981 if (XINT (AREF (from, i)) != buf[i])
6982 break;
6984 if (i == len)
6986 *nchars = len;
6987 return XCDR (val);
6990 return Qnil;
6994 static int
6995 produce_chars (struct coding_system *coding, Lisp_Object translation_table,
6996 bool last_block)
6998 unsigned char *dst = coding->destination + coding->produced;
6999 unsigned char *dst_end = coding->destination + coding->dst_bytes;
7000 ptrdiff_t produced;
7001 ptrdiff_t produced_chars = 0;
7002 int carryover = 0;
7004 if (! coding->chars_at_source)
7006 /* Source characters are in coding->charbuf. */
7007 int *buf = coding->charbuf;
7008 int *buf_end = buf + coding->charbuf_used;
7010 if (EQ (coding->src_object, coding->dst_object)
7011 && ! NILP (coding->dst_object))
7013 eassert (growable_destination (coding));
7014 coding_set_source (coding);
7015 dst_end = ((unsigned char *) coding->source) + coding->consumed;
7018 while (buf < buf_end)
7020 int c = *buf;
7021 ptrdiff_t i;
7023 if (c >= 0)
7025 ptrdiff_t from_nchars = 1, to_nchars = 1;
7026 Lisp_Object trans = Qnil;
7028 LOOKUP_TRANSLATION_TABLE (translation_table, c, trans);
7029 if (! NILP (trans))
7031 trans = get_translation (trans, buf, buf_end, &from_nchars);
7032 if (INTEGERP (trans))
7033 c = XINT (trans);
7034 else if (VECTORP (trans))
7036 to_nchars = ASIZE (trans);
7037 c = XINT (AREF (trans, 0));
7039 else if (EQ (trans, Qt) && ! last_block)
7040 break;
7043 if ((dst_end - dst) / MAX_MULTIBYTE_LENGTH < to_nchars)
7045 eassert (growable_destination (coding));
7046 ptrdiff_t dst_size;
7047 if (INT_MULTIPLY_WRAPV (to_nchars, MAX_MULTIBYTE_LENGTH,
7048 &dst_size)
7049 || INT_ADD_WRAPV (buf_end - buf, dst_size, &dst_size))
7050 memory_full (SIZE_MAX);
7051 dst = alloc_destination (coding, dst_size, dst);
7052 if (EQ (coding->src_object, coding->dst_object))
7054 coding_set_source (coding);
7055 dst_end = (((unsigned char *) coding->source)
7056 + coding->consumed);
7058 else
7059 dst_end = coding->destination + coding->dst_bytes;
7062 for (i = 0; i < to_nchars; i++)
7064 if (i > 0)
7065 c = XINT (AREF (trans, i));
7066 if (coding->dst_multibyte
7067 || ! CHAR_BYTE8_P (c))
7068 CHAR_STRING_ADVANCE_NO_UNIFY (c, dst);
7069 else
7070 *dst++ = CHAR_TO_BYTE8 (c);
7072 produced_chars += to_nchars;
7073 buf += from_nchars;
7075 else
7076 /* This is an annotation datum. (-C) is the length. */
7077 buf += -c;
7079 carryover = buf_end - buf;
7081 else
7083 /* Source characters are at coding->source. */
7084 const unsigned char *src = coding->source;
7085 const unsigned char *src_end = src + coding->consumed;
7087 if (EQ (coding->dst_object, coding->src_object))
7089 eassert (growable_destination (coding));
7090 dst_end = (unsigned char *) src;
7092 if (coding->src_multibyte != coding->dst_multibyte)
7094 if (coding->src_multibyte)
7096 bool multibytep = 1;
7097 ptrdiff_t consumed_chars = 0;
7099 while (1)
7101 const unsigned char *src_base = src;
7102 int c;
7104 ONE_MORE_BYTE (c);
7105 if (dst == dst_end)
7107 eassert (growable_destination (coding));
7108 if (EQ (coding->src_object, coding->dst_object))
7109 dst_end = (unsigned char *) src;
7110 if (dst == dst_end)
7112 ptrdiff_t offset = src - coding->source;
7114 dst = alloc_destination (coding, src_end - src + 1,
7115 dst);
7116 dst_end = coding->destination + coding->dst_bytes;
7117 coding_set_source (coding);
7118 src = coding->source + offset;
7119 src_end = coding->source + coding->consumed;
7120 if (EQ (coding->src_object, coding->dst_object))
7121 dst_end = (unsigned char *) src;
7124 *dst++ = c;
7125 produced_chars++;
7127 no_more_source:
7130 else
7131 while (src < src_end)
7133 bool multibytep = 1;
7134 int c = *src++;
7136 if (dst >= dst_end - 1)
7138 eassert (growable_destination (coding));
7139 if (EQ (coding->src_object, coding->dst_object))
7140 dst_end = (unsigned char *) src;
7141 if (dst >= dst_end - 1)
7143 ptrdiff_t offset = src - coding->source;
7144 ptrdiff_t more_bytes;
7146 if (EQ (coding->src_object, coding->dst_object))
7147 more_bytes = ((src_end - src) / 2) + 2;
7148 else
7149 more_bytes = src_end - src + 2;
7150 dst = alloc_destination (coding, more_bytes, dst);
7151 dst_end = coding->destination + coding->dst_bytes;
7152 coding_set_source (coding);
7153 src = coding->source + offset;
7154 src_end = coding->source + coding->consumed;
7155 if (EQ (coding->src_object, coding->dst_object))
7156 dst_end = (unsigned char *) src;
7159 EMIT_ONE_BYTE (c);
7162 else
7164 if (!EQ (coding->src_object, coding->dst_object))
7166 ptrdiff_t require = coding->src_bytes - coding->dst_bytes;
7168 if (require > 0)
7170 ptrdiff_t offset = src - coding->source;
7172 dst = alloc_destination (coding, require, dst);
7173 coding_set_source (coding);
7174 src = coding->source + offset;
7175 src_end = coding->source + coding->consumed;
7178 produced_chars = coding->consumed_char;
7179 while (src < src_end)
7180 *dst++ = *src++;
7184 produced = dst - (coding->destination + coding->produced);
7185 if (BUFFERP (coding->dst_object) && produced_chars > 0)
7186 insert_from_gap (produced_chars, produced, 0);
7187 coding->produced += produced;
7188 coding->produced_char += produced_chars;
7189 return carryover;
7192 /* Compose text in CODING->object according to the annotation data at
7193 CHARBUF. CHARBUF is an array:
7194 [ -LENGTH ANNOTATION_MASK NCHARS NBYTES METHOD [ COMPONENTS... ] ]
7197 static void
7198 produce_composition (struct coding_system *coding, int *charbuf, ptrdiff_t pos)
7200 int len;
7201 ptrdiff_t to;
7202 enum composition_method method;
7203 Lisp_Object components;
7205 len = -charbuf[0] - MAX_ANNOTATION_LENGTH;
7206 to = pos + charbuf[2];
7207 method = (enum composition_method) (charbuf[4]);
7209 if (method == COMPOSITION_RELATIVE)
7210 components = Qnil;
7211 else
7213 Lisp_Object args[MAX_COMPOSITION_COMPONENTS * 2 - 1];
7214 int i, j;
7216 if (method == COMPOSITION_WITH_RULE)
7217 len = charbuf[2] * 3 - 2;
7218 charbuf += MAX_ANNOTATION_LENGTH;
7219 /* charbuf = [ CHRA ... CHAR] or [ CHAR -2 RULE ... CHAR ] */
7220 for (i = j = 0; i < len && charbuf[i] != -1; i++, j++)
7222 if (charbuf[i] >= 0)
7223 args[j] = make_number (charbuf[i]);
7224 else
7226 i++;
7227 args[j] = make_number (charbuf[i] % 0x100);
7230 components = (i == j ? Fstring (j, args) : Fvector (j, args));
7232 compose_text (pos, to, components, Qnil, coding->dst_object);
7236 /* Put `charset' property on text in CODING->object according to
7237 the annotation data at CHARBUF. CHARBUF is an array:
7238 [ -LENGTH ANNOTATION_MASK NCHARS CHARSET-ID ]
7241 static void
7242 produce_charset (struct coding_system *coding, int *charbuf, ptrdiff_t pos)
7244 ptrdiff_t from = pos - charbuf[2];
7245 struct charset *charset = CHARSET_FROM_ID (charbuf[3]);
7247 Fput_text_property (make_number (from), make_number (pos),
7248 Qcharset, CHARSET_NAME (charset),
7249 coding->dst_object);
7252 #define MAX_CHARBUF_SIZE 0x4000
7253 /* How many units decoding functions expect in coding->charbuf at
7254 most. Currently, decode_coding_emacs_mule expects the following
7255 size, and that is the largest value. */
7256 #define MAX_CHARBUF_EXTRA_SIZE ((MAX_ANNOTATION_LENGTH * 3) + 1)
7258 #define ALLOC_CONVERSION_WORK_AREA(coding, size) \
7259 do { \
7260 ptrdiff_t units = min ((size) + MAX_CHARBUF_EXTRA_SIZE, \
7261 MAX_CHARBUF_SIZE); \
7262 coding->charbuf = SAFE_ALLOCA (units * sizeof (int)); \
7263 coding->charbuf_size = units; \
7264 } while (0)
7266 static void
7267 produce_annotation (struct coding_system *coding, ptrdiff_t pos)
7269 int *charbuf = coding->charbuf;
7270 int *charbuf_end = charbuf + coding->charbuf_used;
7272 if (NILP (coding->dst_object))
7273 return;
7275 while (charbuf < charbuf_end)
7277 if (*charbuf >= 0)
7278 pos++, charbuf++;
7279 else
7281 int len = -*charbuf;
7283 if (len > 2)
7284 switch (charbuf[1])
7286 case CODING_ANNOTATE_COMPOSITION_MASK:
7287 produce_composition (coding, charbuf, pos);
7288 break;
7289 case CODING_ANNOTATE_CHARSET_MASK:
7290 produce_charset (coding, charbuf, pos);
7291 break;
7292 default:
7293 break;
7295 charbuf += len;
7300 /* Decode the data at CODING->src_object into CODING->dst_object.
7301 CODING->src_object is a buffer, a string, or nil.
7302 CODING->dst_object is a buffer.
7304 If CODING->src_object is a buffer, it must be the current buffer.
7305 In this case, if CODING->src_pos is positive, it is a position of
7306 the source text in the buffer, otherwise, the source text is in the
7307 gap area of the buffer, and CODING->src_pos specifies the offset of
7308 the text from GPT (which must be the same as PT). If this is the
7309 same buffer as CODING->dst_object, CODING->src_pos must be
7310 negative.
7312 If CODING->src_object is a string, CODING->src_pos is an index to
7313 that string.
7315 If CODING->src_object is nil, CODING->source must already point to
7316 the non-relocatable memory area. In this case, CODING->src_pos is
7317 an offset from CODING->source.
7319 The decoded data is inserted at the current point of the buffer
7320 CODING->dst_object.
7323 static void
7324 decode_coding (struct coding_system *coding)
7326 Lisp_Object attrs;
7327 Lisp_Object undo_list;
7328 Lisp_Object translation_table;
7329 struct ccl_spec cclspec;
7330 int carryover;
7331 int i;
7333 USE_SAFE_ALLOCA;
7335 if (BUFFERP (coding->src_object)
7336 && coding->src_pos > 0
7337 && coding->src_pos < GPT
7338 && coding->src_pos + coding->src_chars > GPT)
7339 move_gap_both (coding->src_pos, coding->src_pos_byte);
7341 undo_list = Qt;
7342 if (BUFFERP (coding->dst_object))
7344 set_buffer_internal (XBUFFER (coding->dst_object));
7345 if (GPT != PT)
7346 move_gap_both (PT, PT_BYTE);
7348 /* We must disable undo_list in order to record the whole insert
7349 transaction via record_insert at the end. But doing so also
7350 disables the recording of the first change to the undo_list.
7351 Therefore we check for first change here and record it via
7352 record_first_change if needed. */
7353 if (MODIFF <= SAVE_MODIFF)
7354 record_first_change ();
7356 undo_list = BVAR (current_buffer, undo_list);
7357 bset_undo_list (current_buffer, Qt);
7360 coding->consumed = coding->consumed_char = 0;
7361 coding->produced = coding->produced_char = 0;
7362 coding->chars_at_source = 0;
7363 record_conversion_result (coding, CODING_RESULT_SUCCESS);
7365 ALLOC_CONVERSION_WORK_AREA (coding, coding->src_bytes);
7367 attrs = CODING_ID_ATTRS (coding->id);
7368 translation_table = get_translation_table (attrs, 0, NULL);
7370 carryover = 0;
7371 if (coding->decoder == decode_coding_ccl)
7373 coding->spec.ccl = &cclspec;
7374 setup_ccl_program (&cclspec.ccl, CODING_CCL_DECODER (coding));
7378 ptrdiff_t pos = coding->dst_pos + coding->produced_char;
7380 coding_set_source (coding);
7381 coding->annotated = 0;
7382 coding->charbuf_used = carryover;
7383 (*(coding->decoder)) (coding);
7384 coding_set_destination (coding);
7385 carryover = produce_chars (coding, translation_table, 0);
7386 if (coding->annotated)
7387 produce_annotation (coding, pos);
7388 for (i = 0; i < carryover; i++)
7389 coding->charbuf[i]
7390 = coding->charbuf[coding->charbuf_used - carryover + i];
7392 while (coding->result == CODING_RESULT_INSUFFICIENT_DST
7393 || (coding->consumed < coding->src_bytes
7394 && (coding->result == CODING_RESULT_SUCCESS
7395 || coding->result == CODING_RESULT_INVALID_SRC)));
7397 if (carryover > 0)
7399 coding_set_destination (coding);
7400 coding->charbuf_used = carryover;
7401 produce_chars (coding, translation_table, 1);
7404 coding->carryover_bytes = 0;
7405 if (coding->consumed < coding->src_bytes)
7407 ptrdiff_t nbytes = coding->src_bytes - coding->consumed;
7408 const unsigned char *src;
7410 coding_set_source (coding);
7411 coding_set_destination (coding);
7412 src = coding->source + coding->consumed;
7414 if (coding->mode & CODING_MODE_LAST_BLOCK)
7416 /* Flush out unprocessed data as binary chars. We are sure
7417 that the number of data is less than the size of
7418 coding->charbuf. */
7419 coding->charbuf_used = 0;
7420 coding->chars_at_source = 0;
7422 while (nbytes-- > 0)
7424 int c = *src++;
7426 if (c & 0x80)
7427 c = BYTE8_TO_CHAR (c);
7428 coding->charbuf[coding->charbuf_used++] = c;
7430 produce_chars (coding, Qnil, 1);
7432 else
7434 /* Record unprocessed bytes in coding->carryover. We are
7435 sure that the number of data is less than the size of
7436 coding->carryover. */
7437 unsigned char *p = coding->carryover;
7439 if (nbytes > sizeof coding->carryover)
7440 nbytes = sizeof coding->carryover;
7441 coding->carryover_bytes = nbytes;
7442 while (nbytes-- > 0)
7443 *p++ = *src++;
7445 coding->consumed = coding->src_bytes;
7448 if (! EQ (CODING_ID_EOL_TYPE (coding->id), Qunix)
7449 && !inhibit_eol_conversion)
7450 decode_eol (coding);
7451 if (BUFFERP (coding->dst_object))
7453 bset_undo_list (current_buffer, undo_list);
7454 record_insert (coding->dst_pos, coding->produced_char);
7457 SAFE_FREE ();
7461 /* Extract an annotation datum from a composition starting at POS and
7462 ending before LIMIT of CODING->src_object (buffer or string), store
7463 the data in BUF, set *STOP to a starting position of the next
7464 composition (if any) or to LIMIT, and return the address of the
7465 next element of BUF.
7467 If such an annotation is not found, set *STOP to a starting
7468 position of a composition after POS (if any) or to LIMIT, and
7469 return BUF. */
7471 static int *
7472 handle_composition_annotation (ptrdiff_t pos, ptrdiff_t limit,
7473 struct coding_system *coding, int *buf,
7474 ptrdiff_t *stop)
7476 ptrdiff_t start, end;
7477 Lisp_Object prop;
7479 if (! find_composition (pos, limit, &start, &end, &prop, coding->src_object)
7480 || end > limit)
7481 *stop = limit;
7482 else if (start > pos)
7483 *stop = start;
7484 else
7486 if (start == pos)
7488 /* We found a composition. Store the corresponding
7489 annotation data in BUF. */
7490 int *head = buf;
7491 enum composition_method method = composition_method (prop);
7492 int nchars = COMPOSITION_LENGTH (prop);
7494 ADD_COMPOSITION_DATA (buf, nchars, 0, method);
7495 if (method != COMPOSITION_RELATIVE)
7497 Lisp_Object components;
7498 ptrdiff_t i, len, i_byte;
7500 components = COMPOSITION_COMPONENTS (prop);
7501 if (VECTORP (components))
7503 len = ASIZE (components);
7504 for (i = 0; i < len; i++)
7505 *buf++ = XINT (AREF (components, i));
7507 else if (STRINGP (components))
7509 len = SCHARS (components);
7510 i = i_byte = 0;
7511 while (i < len)
7513 FETCH_STRING_CHAR_ADVANCE (*buf, components, i, i_byte);
7514 buf++;
7517 else if (INTEGERP (components))
7519 len = 1;
7520 *buf++ = XINT (components);
7522 else if (CONSP (components))
7524 for (len = 0; CONSP (components);
7525 len++, components = XCDR (components))
7526 *buf++ = XINT (XCAR (components));
7528 else
7529 emacs_abort ();
7530 *head -= len;
7534 if (find_composition (end, limit, &start, &end, &prop,
7535 coding->src_object)
7536 && end <= limit)
7537 *stop = start;
7538 else
7539 *stop = limit;
7541 return buf;
7545 /* Extract an annotation datum from a text property `charset' at POS of
7546 CODING->src_object (buffer of string), store the data in BUF, set
7547 *STOP to the position where the value of `charset' property changes
7548 (limiting by LIMIT), and return the address of the next element of
7549 BUF.
7551 If the property value is nil, set *STOP to the position where the
7552 property value is non-nil (limiting by LIMIT), and return BUF. */
7554 static int *
7555 handle_charset_annotation (ptrdiff_t pos, ptrdiff_t limit,
7556 struct coding_system *coding, int *buf,
7557 ptrdiff_t *stop)
7559 Lisp_Object val, next;
7560 int id;
7562 val = Fget_text_property (make_number (pos), Qcharset, coding->src_object);
7563 if (! NILP (val) && CHARSETP (val))
7564 id = XINT (CHARSET_SYMBOL_ID (val));
7565 else
7566 id = -1;
7567 ADD_CHARSET_DATA (buf, 0, id);
7568 next = Fnext_single_property_change (make_number (pos), Qcharset,
7569 coding->src_object,
7570 make_number (limit));
7571 *stop = XINT (next);
7572 return buf;
7576 static void
7577 consume_chars (struct coding_system *coding, Lisp_Object translation_table,
7578 int max_lookup)
7580 int *buf = coding->charbuf;
7581 int *buf_end = coding->charbuf + coding->charbuf_size;
7582 const unsigned char *src = coding->source + coding->consumed;
7583 const unsigned char *src_end = coding->source + coding->src_bytes;
7584 ptrdiff_t pos = coding->src_pos + coding->consumed_char;
7585 ptrdiff_t end_pos = coding->src_pos + coding->src_chars;
7586 bool multibytep = coding->src_multibyte;
7587 Lisp_Object eol_type;
7588 int c;
7589 ptrdiff_t stop, stop_composition, stop_charset;
7590 int *lookup_buf = NULL;
7592 if (! NILP (translation_table))
7593 lookup_buf = alloca (sizeof (int) * max_lookup);
7595 eol_type = inhibit_eol_conversion ? Qunix : CODING_ID_EOL_TYPE (coding->id);
7596 if (VECTORP (eol_type))
7597 eol_type = Qunix;
7599 /* Note: composition handling is not yet implemented. */
7600 coding->common_flags &= ~CODING_ANNOTATE_COMPOSITION_MASK;
7602 if (NILP (coding->src_object))
7603 stop = stop_composition = stop_charset = end_pos;
7604 else
7606 if (coding->common_flags & CODING_ANNOTATE_COMPOSITION_MASK)
7607 stop = stop_composition = pos;
7608 else
7609 stop = stop_composition = end_pos;
7610 if (coding->common_flags & CODING_ANNOTATE_CHARSET_MASK)
7611 stop = stop_charset = pos;
7612 else
7613 stop_charset = end_pos;
7616 /* Compensate for CRLF and conversion. */
7617 buf_end -= 1 + MAX_ANNOTATION_LENGTH;
7618 while (buf < buf_end)
7620 Lisp_Object trans;
7622 if (pos == stop)
7624 if (pos == end_pos)
7625 break;
7626 if (pos == stop_composition)
7627 buf = handle_composition_annotation (pos, end_pos, coding,
7628 buf, &stop_composition);
7629 if (pos == stop_charset)
7630 buf = handle_charset_annotation (pos, end_pos, coding,
7631 buf, &stop_charset);
7632 stop = (stop_composition < stop_charset
7633 ? stop_composition : stop_charset);
7636 if (! multibytep)
7638 int bytes;
7640 if (coding->encoder == encode_coding_raw_text
7641 || coding->encoder == encode_coding_ccl)
7642 c = *src++, pos++;
7643 else if ((bytes = MULTIBYTE_LENGTH (src, src_end)) > 0)
7644 c = STRING_CHAR_ADVANCE_NO_UNIFY (src), pos += bytes;
7645 else
7646 c = BYTE8_TO_CHAR (*src), src++, pos++;
7648 else
7649 c = STRING_CHAR_ADVANCE_NO_UNIFY (src), pos++;
7650 if ((c == '\r') && (coding->mode & CODING_MODE_SELECTIVE_DISPLAY))
7651 c = '\n';
7652 if (! EQ (eol_type, Qunix))
7654 if (c == '\n')
7656 if (EQ (eol_type, Qdos))
7657 *buf++ = '\r';
7658 else
7659 c = '\r';
7663 trans = Qnil;
7664 LOOKUP_TRANSLATION_TABLE (translation_table, c, trans);
7665 if (NILP (trans))
7666 *buf++ = c;
7667 else
7669 ptrdiff_t from_nchars = 1, to_nchars = 1;
7670 int *lookup_buf_end;
7671 const unsigned char *p = src;
7672 int i;
7674 lookup_buf[0] = c;
7675 for (i = 1; i < max_lookup && p < src_end; i++)
7676 lookup_buf[i] = STRING_CHAR_ADVANCE (p);
7677 lookup_buf_end = lookup_buf + i;
7678 trans = get_translation (trans, lookup_buf, lookup_buf_end,
7679 &from_nchars);
7680 if (INTEGERP (trans))
7681 c = XINT (trans);
7682 else if (VECTORP (trans))
7684 to_nchars = ASIZE (trans);
7685 if (buf_end - buf < to_nchars)
7686 break;
7687 c = XINT (AREF (trans, 0));
7689 else
7690 break;
7691 *buf++ = c;
7692 for (i = 1; i < to_nchars; i++)
7693 *buf++ = XINT (AREF (trans, i));
7694 for (i = 1; i < from_nchars; i++, pos++)
7695 src += MULTIBYTE_LENGTH_NO_CHECK (src);
7699 coding->consumed = src - coding->source;
7700 coding->consumed_char = pos - coding->src_pos;
7701 coding->charbuf_used = buf - coding->charbuf;
7702 coding->chars_at_source = 0;
7706 /* Encode the text at CODING->src_object into CODING->dst_object.
7707 CODING->src_object is a buffer or a string.
7708 CODING->dst_object is a buffer or nil.
7710 If CODING->src_object is a buffer, it must be the current buffer.
7711 In this case, if CODING->src_pos is positive, it is a position of
7712 the source text in the buffer, otherwise. the source text is in the
7713 gap area of the buffer, and coding->src_pos specifies the offset of
7714 the text from GPT (which must be the same as PT). If this is the
7715 same buffer as CODING->dst_object, CODING->src_pos must be
7716 negative and CODING should not have `pre-write-conversion'.
7718 If CODING->src_object is a string, CODING should not have
7719 `pre-write-conversion'.
7721 If CODING->dst_object is a buffer, the encoded data is inserted at
7722 the current point of that buffer.
7724 If CODING->dst_object is nil, the encoded data is placed at the
7725 memory area specified by CODING->destination. */
7727 static void
7728 encode_coding (struct coding_system *coding)
7730 Lisp_Object attrs;
7731 Lisp_Object translation_table;
7732 int max_lookup;
7733 struct ccl_spec cclspec;
7735 USE_SAFE_ALLOCA;
7737 attrs = CODING_ID_ATTRS (coding->id);
7738 if (coding->encoder == encode_coding_raw_text)
7739 translation_table = Qnil, max_lookup = 0;
7740 else
7741 translation_table = get_translation_table (attrs, 1, &max_lookup);
7743 if (BUFFERP (coding->dst_object))
7745 set_buffer_internal (XBUFFER (coding->dst_object));
7746 coding->dst_multibyte
7747 = ! NILP (BVAR (current_buffer, enable_multibyte_characters));
7750 coding->consumed = coding->consumed_char = 0;
7751 coding->produced = coding->produced_char = 0;
7752 record_conversion_result (coding, CODING_RESULT_SUCCESS);
7754 ALLOC_CONVERSION_WORK_AREA (coding, coding->src_chars);
7756 if (coding->encoder == encode_coding_ccl)
7758 coding->spec.ccl = &cclspec;
7759 setup_ccl_program (&cclspec.ccl, CODING_CCL_ENCODER (coding));
7761 do {
7762 coding_set_source (coding);
7763 consume_chars (coding, translation_table, max_lookup);
7764 coding_set_destination (coding);
7765 (*(coding->encoder)) (coding);
7766 } while (coding->consumed_char < coding->src_chars);
7768 if (BUFFERP (coding->dst_object) && coding->produced_char > 0)
7769 insert_from_gap (coding->produced_char, coding->produced, 0);
7771 SAFE_FREE ();
7775 /* Name (or base name) of work buffer for code conversion. */
7776 static Lisp_Object Vcode_conversion_workbuf_name;
7778 /* A working buffer used by the top level conversion. Once it is
7779 created, it is never destroyed. It has the name
7780 Vcode_conversion_workbuf_name. The other working buffers are
7781 destroyed after the use is finished, and their names are modified
7782 versions of Vcode_conversion_workbuf_name. */
7783 static Lisp_Object Vcode_conversion_reused_workbuf;
7785 /* True iff Vcode_conversion_reused_workbuf is already in use. */
7786 static bool reused_workbuf_in_use;
7789 /* Return a working buffer of code conversion. MULTIBYTE specifies the
7790 multibyteness of returning buffer. */
7792 static Lisp_Object
7793 make_conversion_work_buffer (bool multibyte)
7795 Lisp_Object name, workbuf;
7796 struct buffer *current;
7798 if (reused_workbuf_in_use)
7800 name = Fgenerate_new_buffer_name (Vcode_conversion_workbuf_name, Qnil);
7801 workbuf = Fget_buffer_create (name);
7803 else
7805 reused_workbuf_in_use = 1;
7806 if (NILP (Fbuffer_live_p (Vcode_conversion_reused_workbuf)))
7807 Vcode_conversion_reused_workbuf
7808 = Fget_buffer_create (Vcode_conversion_workbuf_name);
7809 workbuf = Vcode_conversion_reused_workbuf;
7811 current = current_buffer;
7812 set_buffer_internal (XBUFFER (workbuf));
7813 /* We can't allow modification hooks to run in the work buffer. For
7814 instance, directory_files_internal assumes that file decoding
7815 doesn't compile new regexps. */
7816 Fset (Fmake_local_variable (Qinhibit_modification_hooks), Qt);
7817 Ferase_buffer ();
7818 bset_undo_list (current_buffer, Qt);
7819 bset_enable_multibyte_characters (current_buffer, multibyte ? Qt : Qnil);
7820 set_buffer_internal (current);
7821 return workbuf;
7825 static void
7826 code_conversion_restore (Lisp_Object arg)
7828 Lisp_Object current, workbuf;
7830 current = XCAR (arg);
7831 workbuf = XCDR (arg);
7832 if (! NILP (workbuf))
7834 if (EQ (workbuf, Vcode_conversion_reused_workbuf))
7835 reused_workbuf_in_use = 0;
7836 else
7837 Fkill_buffer (workbuf);
7839 set_buffer_internal (XBUFFER (current));
7842 Lisp_Object
7843 code_conversion_save (bool with_work_buf, bool multibyte)
7845 Lisp_Object workbuf = Qnil;
7847 if (with_work_buf)
7848 workbuf = make_conversion_work_buffer (multibyte);
7849 record_unwind_protect (code_conversion_restore,
7850 Fcons (Fcurrent_buffer (), workbuf));
7851 return workbuf;
7854 static void
7855 coding_restore_undo_list (Lisp_Object arg)
7857 Lisp_Object undo_list = XCAR (arg);
7858 struct buffer *buf = XBUFFER (XCDR (arg));
7860 bset_undo_list (buf, undo_list);
7863 void
7864 decode_coding_gap (struct coding_system *coding,
7865 ptrdiff_t chars, ptrdiff_t bytes)
7867 ptrdiff_t count = SPECPDL_INDEX ();
7868 Lisp_Object attrs;
7870 coding->src_object = Fcurrent_buffer ();
7871 coding->src_chars = chars;
7872 coding->src_bytes = bytes;
7873 coding->src_pos = -chars;
7874 coding->src_pos_byte = -bytes;
7875 coding->src_multibyte = chars < bytes;
7876 coding->dst_object = coding->src_object;
7877 coding->dst_pos = PT;
7878 coding->dst_pos_byte = PT_BYTE;
7879 coding->dst_multibyte = ! NILP (BVAR (current_buffer, enable_multibyte_characters));
7881 coding->head_ascii = -1;
7882 coding->detected_utf8_bytes = coding->detected_utf8_chars = -1;
7883 coding->eol_seen = EOL_SEEN_NONE;
7884 if (CODING_REQUIRE_DETECTION (coding))
7885 detect_coding (coding);
7886 attrs = CODING_ID_ATTRS (coding->id);
7887 if (! disable_ascii_optimization
7888 && ! coding->src_multibyte
7889 && ! NILP (CODING_ATTR_ASCII_COMPAT (attrs))
7890 && NILP (CODING_ATTR_POST_READ (attrs))
7891 && NILP (get_translation_table (attrs, 0, NULL)))
7893 chars = coding->head_ascii;
7894 if (chars < 0)
7895 chars = check_ascii (coding);
7896 if (chars != bytes)
7898 /* There exists a non-ASCII byte. */
7899 if (EQ (CODING_ATTR_TYPE (attrs), Qutf_8)
7900 && coding->detected_utf8_bytes == coding->src_bytes)
7902 if (coding->detected_utf8_chars >= 0)
7903 chars = coding->detected_utf8_chars;
7904 else
7905 chars = check_utf_8 (coding);
7906 if (CODING_UTF_8_BOM (coding) != utf_without_bom
7907 && coding->head_ascii == 0
7908 && coding->source[0] == UTF_8_BOM_1
7909 && coding->source[1] == UTF_8_BOM_2
7910 && coding->source[2] == UTF_8_BOM_3)
7912 chars--;
7913 bytes -= 3;
7914 coding->src_bytes -= 3;
7917 else
7918 chars = -1;
7920 if (chars >= 0)
7922 Lisp_Object eol_type;
7924 eol_type = CODING_ID_EOL_TYPE (coding->id);
7925 if (VECTORP (eol_type))
7927 if (coding->eol_seen != EOL_SEEN_NONE)
7928 eol_type = adjust_coding_eol_type (coding, coding->eol_seen);
7930 if (EQ (eol_type, Qmac))
7932 unsigned char *src_end = GAP_END_ADDR;
7933 unsigned char *src = src_end - coding->src_bytes;
7935 while (src < src_end)
7937 if (*src++ == '\r')
7938 src[-1] = '\n';
7941 else if (EQ (eol_type, Qdos))
7943 unsigned char *src = GAP_END_ADDR;
7944 unsigned char *src_beg = src - coding->src_bytes;
7945 unsigned char *dst = src;
7946 ptrdiff_t diff;
7948 while (src_beg < src)
7950 *--dst = *--src;
7951 if (*src == '\n' && src > src_beg && src[-1] == '\r')
7952 src--;
7954 diff = dst - src;
7955 bytes -= diff;
7956 chars -= diff;
7958 coding->produced = bytes;
7959 coding->produced_char = chars;
7960 insert_from_gap (chars, bytes, 1);
7961 return;
7964 code_conversion_save (0, 0);
7966 coding->mode |= CODING_MODE_LAST_BLOCK;
7967 current_buffer->text->inhibit_shrinking = 1;
7968 decode_coding (coding);
7969 current_buffer->text->inhibit_shrinking = 0;
7971 if (! NILP (CODING_ATTR_POST_READ (attrs)))
7973 ptrdiff_t prev_Z = Z, prev_Z_BYTE = Z_BYTE;
7974 Lisp_Object val;
7975 Lisp_Object undo_list = BVAR (current_buffer, undo_list);
7976 ptrdiff_t count1 = SPECPDL_INDEX ();
7978 record_unwind_protect (coding_restore_undo_list,
7979 Fcons (undo_list, Fcurrent_buffer ()));
7980 bset_undo_list (current_buffer, Qt);
7981 TEMP_SET_PT_BOTH (coding->dst_pos, coding->dst_pos_byte);
7982 val = call1 (CODING_ATTR_POST_READ (attrs),
7983 make_number (coding->produced_char));
7984 CHECK_NATNUM (val);
7985 coding->produced_char += Z - prev_Z;
7986 coding->produced += Z_BYTE - prev_Z_BYTE;
7987 unbind_to (count1, Qnil);
7990 unbind_to (count, Qnil);
7994 /* Decode the text in the range FROM/FROM_BYTE and TO/TO_BYTE in
7995 SRC_OBJECT into DST_OBJECT by coding context CODING.
7997 SRC_OBJECT is a buffer, a string, or Qnil.
7999 If it is a buffer, the text is at point of the buffer. FROM and TO
8000 are positions in the buffer.
8002 If it is a string, the text is at the beginning of the string.
8003 FROM and TO are indices to the string.
8005 If it is nil, the text is at coding->source. FROM and TO are
8006 indices to coding->source.
8008 DST_OBJECT is a buffer, Qt, or Qnil.
8010 If it is a buffer, the decoded text is inserted at point of the
8011 buffer. If the buffer is the same as SRC_OBJECT, the source text
8012 is deleted.
8014 If it is Qt, a string is made from the decoded text, and
8015 set in CODING->dst_object.
8017 If it is Qnil, the decoded text is stored at CODING->destination.
8018 The caller must allocate CODING->dst_bytes bytes at
8019 CODING->destination by xmalloc. If the decoded text is longer than
8020 CODING->dst_bytes, CODING->destination is relocated by xrealloc.
8023 void
8024 decode_coding_object (struct coding_system *coding,
8025 Lisp_Object src_object,
8026 ptrdiff_t from, ptrdiff_t from_byte,
8027 ptrdiff_t to, ptrdiff_t to_byte,
8028 Lisp_Object dst_object)
8030 ptrdiff_t count = SPECPDL_INDEX ();
8031 unsigned char *destination;
8032 ptrdiff_t dst_bytes;
8033 ptrdiff_t chars = to - from;
8034 ptrdiff_t bytes = to_byte - from_byte;
8035 Lisp_Object attrs;
8036 ptrdiff_t saved_pt = -1, saved_pt_byte;
8037 bool need_marker_adjustment = 0;
8038 Lisp_Object old_deactivate_mark;
8040 old_deactivate_mark = Vdeactivate_mark;
8042 if (NILP (dst_object))
8044 destination = coding->destination;
8045 dst_bytes = coding->dst_bytes;
8048 coding->src_object = src_object;
8049 coding->src_chars = chars;
8050 coding->src_bytes = bytes;
8051 coding->src_multibyte = chars < bytes;
8053 if (STRINGP (src_object))
8055 coding->src_pos = from;
8056 coding->src_pos_byte = from_byte;
8058 else if (BUFFERP (src_object))
8060 set_buffer_internal (XBUFFER (src_object));
8061 if (from != GPT)
8062 move_gap_both (from, from_byte);
8063 if (EQ (src_object, dst_object))
8065 struct Lisp_Marker *tail;
8067 for (tail = BUF_MARKERS (current_buffer); tail; tail = tail->next)
8069 tail->need_adjustment
8070 = tail->charpos == (tail->insertion_type ? from : to);
8071 need_marker_adjustment |= tail->need_adjustment;
8073 saved_pt = PT, saved_pt_byte = PT_BYTE;
8074 TEMP_SET_PT_BOTH (from, from_byte);
8075 current_buffer->text->inhibit_shrinking = 1;
8076 del_range_both (from, from_byte, to, to_byte, 1);
8077 coding->src_pos = -chars;
8078 coding->src_pos_byte = -bytes;
8080 else
8082 coding->src_pos = from;
8083 coding->src_pos_byte = from_byte;
8087 if (CODING_REQUIRE_DETECTION (coding))
8088 detect_coding (coding);
8089 attrs = CODING_ID_ATTRS (coding->id);
8091 if (EQ (dst_object, Qt)
8092 || (! NILP (CODING_ATTR_POST_READ (attrs))
8093 && NILP (dst_object)))
8095 coding->dst_multibyte = !CODING_FOR_UNIBYTE (coding);
8096 coding->dst_object = code_conversion_save (1, coding->dst_multibyte);
8097 coding->dst_pos = BEG;
8098 coding->dst_pos_byte = BEG_BYTE;
8100 else if (BUFFERP (dst_object))
8102 code_conversion_save (0, 0);
8103 coding->dst_object = dst_object;
8104 coding->dst_pos = BUF_PT (XBUFFER (dst_object));
8105 coding->dst_pos_byte = BUF_PT_BYTE (XBUFFER (dst_object));
8106 coding->dst_multibyte
8107 = ! NILP (BVAR (XBUFFER (dst_object), enable_multibyte_characters));
8109 else
8111 code_conversion_save (0, 0);
8112 coding->dst_object = Qnil;
8113 /* Most callers presume this will return a multibyte result, and they
8114 won't use `binary' or `raw-text' anyway, so let's not worry about
8115 CODING_FOR_UNIBYTE. */
8116 coding->dst_multibyte = 1;
8119 decode_coding (coding);
8121 if (BUFFERP (coding->dst_object))
8122 set_buffer_internal (XBUFFER (coding->dst_object));
8124 if (! NILP (CODING_ATTR_POST_READ (attrs)))
8126 ptrdiff_t prev_Z = Z, prev_Z_BYTE = Z_BYTE;
8127 Lisp_Object val;
8128 Lisp_Object undo_list = BVAR (current_buffer, undo_list);
8129 ptrdiff_t count1 = SPECPDL_INDEX ();
8131 record_unwind_protect (coding_restore_undo_list,
8132 Fcons (undo_list, Fcurrent_buffer ()));
8133 bset_undo_list (current_buffer, Qt);
8134 TEMP_SET_PT_BOTH (coding->dst_pos, coding->dst_pos_byte);
8135 val = safe_call1 (CODING_ATTR_POST_READ (attrs),
8136 make_number (coding->produced_char));
8137 CHECK_NATNUM (val);
8138 coding->produced_char += Z - prev_Z;
8139 coding->produced += Z_BYTE - prev_Z_BYTE;
8140 unbind_to (count1, Qnil);
8143 if (EQ (dst_object, Qt))
8145 coding->dst_object = Fbuffer_string ();
8147 else if (NILP (dst_object) && BUFFERP (coding->dst_object))
8149 set_buffer_internal (XBUFFER (coding->dst_object));
8150 if (dst_bytes < coding->produced)
8152 eassert (coding->produced > 0);
8153 destination = xrealloc (destination, coding->produced);
8154 if (BEGV < GPT && GPT < BEGV + coding->produced_char)
8155 move_gap_both (BEGV, BEGV_BYTE);
8156 memcpy (destination, BEGV_ADDR, coding->produced);
8157 coding->destination = destination;
8161 if (saved_pt >= 0)
8163 /* This is the case of:
8164 (BUFFERP (src_object) && EQ (src_object, dst_object))
8165 As we have moved PT while replacing the original buffer
8166 contents, we must recover it now. */
8167 set_buffer_internal (XBUFFER (src_object));
8168 current_buffer->text->inhibit_shrinking = 0;
8169 if (saved_pt < from)
8170 TEMP_SET_PT_BOTH (saved_pt, saved_pt_byte);
8171 else if (saved_pt < from + chars)
8172 TEMP_SET_PT_BOTH (from, from_byte);
8173 else if (! NILP (BVAR (current_buffer, enable_multibyte_characters)))
8174 TEMP_SET_PT_BOTH (saved_pt + (coding->produced_char - chars),
8175 saved_pt_byte + (coding->produced - bytes));
8176 else
8177 TEMP_SET_PT_BOTH (saved_pt + (coding->produced - bytes),
8178 saved_pt_byte + (coding->produced - bytes));
8180 if (need_marker_adjustment)
8182 struct Lisp_Marker *tail;
8184 for (tail = BUF_MARKERS (current_buffer); tail; tail = tail->next)
8185 if (tail->need_adjustment)
8187 tail->need_adjustment = 0;
8188 if (tail->insertion_type)
8190 tail->bytepos = from_byte;
8191 tail->charpos = from;
8193 else
8195 tail->bytepos = from_byte + coding->produced;
8196 tail->charpos
8197 = (NILP (BVAR (current_buffer, enable_multibyte_characters))
8198 ? tail->bytepos : from + coding->produced_char);
8204 Vdeactivate_mark = old_deactivate_mark;
8205 unbind_to (count, coding->dst_object);
8209 void
8210 encode_coding_object (struct coding_system *coding,
8211 Lisp_Object src_object,
8212 ptrdiff_t from, ptrdiff_t from_byte,
8213 ptrdiff_t to, ptrdiff_t to_byte,
8214 Lisp_Object dst_object)
8216 ptrdiff_t count = SPECPDL_INDEX ();
8217 ptrdiff_t chars = to - from;
8218 ptrdiff_t bytes = to_byte - from_byte;
8219 Lisp_Object attrs;
8220 ptrdiff_t saved_pt = -1, saved_pt_byte;
8221 bool need_marker_adjustment = 0;
8222 bool kill_src_buffer = 0;
8223 Lisp_Object old_deactivate_mark;
8225 old_deactivate_mark = Vdeactivate_mark;
8227 coding->src_object = src_object;
8228 coding->src_chars = chars;
8229 coding->src_bytes = bytes;
8230 coding->src_multibyte = chars < bytes;
8232 attrs = CODING_ID_ATTRS (coding->id);
8234 if (EQ (src_object, dst_object))
8236 struct Lisp_Marker *tail;
8238 for (tail = BUF_MARKERS (current_buffer); tail; tail = tail->next)
8240 tail->need_adjustment
8241 = tail->charpos == (tail->insertion_type ? from : to);
8242 need_marker_adjustment |= tail->need_adjustment;
8246 if (! NILP (CODING_ATTR_PRE_WRITE (attrs)))
8248 coding->src_object = code_conversion_save (1, coding->src_multibyte);
8249 set_buffer_internal (XBUFFER (coding->src_object));
8250 if (STRINGP (src_object))
8251 insert_from_string (src_object, from, from_byte, chars, bytes, 0);
8252 else if (BUFFERP (src_object))
8253 insert_from_buffer (XBUFFER (src_object), from, chars, 0);
8254 else
8255 insert_1_both ((char *) coding->source + from, chars, bytes, 0, 0, 0);
8257 if (EQ (src_object, dst_object))
8259 set_buffer_internal (XBUFFER (src_object));
8260 saved_pt = PT, saved_pt_byte = PT_BYTE;
8261 del_range_both (from, from_byte, to, to_byte, 1);
8262 set_buffer_internal (XBUFFER (coding->src_object));
8265 safe_call2 (CODING_ATTR_PRE_WRITE (attrs),
8266 make_number (BEG), make_number (Z));
8267 if (XBUFFER (coding->src_object) != current_buffer)
8268 kill_src_buffer = 1;
8269 coding->src_object = Fcurrent_buffer ();
8270 if (BEG != GPT)
8271 move_gap_both (BEG, BEG_BYTE);
8272 coding->src_chars = Z - BEG;
8273 coding->src_bytes = Z_BYTE - BEG_BYTE;
8274 coding->src_pos = BEG;
8275 coding->src_pos_byte = BEG_BYTE;
8276 coding->src_multibyte = Z < Z_BYTE;
8278 else if (STRINGP (src_object))
8280 code_conversion_save (0, 0);
8281 coding->src_pos = from;
8282 coding->src_pos_byte = from_byte;
8284 else if (BUFFERP (src_object))
8286 code_conversion_save (0, 0);
8287 set_buffer_internal (XBUFFER (src_object));
8288 if (EQ (src_object, dst_object))
8290 saved_pt = PT, saved_pt_byte = PT_BYTE;
8291 coding->src_object = del_range_1 (from, to, 1, 1);
8292 coding->src_pos = 0;
8293 coding->src_pos_byte = 0;
8295 else
8297 if (from < GPT && to >= GPT)
8298 move_gap_both (from, from_byte);
8299 coding->src_pos = from;
8300 coding->src_pos_byte = from_byte;
8303 else
8305 code_conversion_save (0, 0);
8306 coding->src_pos = from;
8307 coding->src_pos_byte = from_byte;
8310 if (BUFFERP (dst_object))
8312 coding->dst_object = dst_object;
8313 if (EQ (src_object, dst_object))
8315 coding->dst_pos = from;
8316 coding->dst_pos_byte = from_byte;
8318 else
8320 struct buffer *current = current_buffer;
8322 set_buffer_temp (XBUFFER (dst_object));
8323 coding->dst_pos = PT;
8324 coding->dst_pos_byte = PT_BYTE;
8325 move_gap_both (coding->dst_pos, coding->dst_pos_byte);
8326 set_buffer_temp (current);
8328 coding->dst_multibyte
8329 = ! NILP (BVAR (XBUFFER (dst_object), enable_multibyte_characters));
8331 else if (EQ (dst_object, Qt))
8333 ptrdiff_t dst_bytes = max (1, coding->src_chars);
8334 coding->dst_object = Qnil;
8335 coding->destination = xmalloc (dst_bytes);
8336 coding->dst_bytes = dst_bytes;
8337 coding->dst_multibyte = 0;
8339 else
8341 coding->dst_object = Qnil;
8342 coding->dst_multibyte = 0;
8345 encode_coding (coding);
8347 if (EQ (dst_object, Qt))
8349 if (BUFFERP (coding->dst_object))
8350 coding->dst_object = Fbuffer_string ();
8351 else if (coding->raw_destination)
8352 /* This is used to avoid creating huge Lisp string.
8353 NOTE: caller who sets `raw_destination' is also
8354 responsible for freeing `destination' buffer. */
8355 coding->dst_object = Qnil;
8356 else
8358 coding->dst_object
8359 = make_unibyte_string ((char *) coding->destination,
8360 coding->produced);
8361 xfree (coding->destination);
8365 if (saved_pt >= 0)
8367 /* This is the case of:
8368 (BUFFERP (src_object) && EQ (src_object, dst_object))
8369 As we have moved PT while replacing the original buffer
8370 contents, we must recover it now. */
8371 set_buffer_internal (XBUFFER (src_object));
8372 if (saved_pt < from)
8373 TEMP_SET_PT_BOTH (saved_pt, saved_pt_byte);
8374 else if (saved_pt < from + chars)
8375 TEMP_SET_PT_BOTH (from, from_byte);
8376 else if (! NILP (BVAR (current_buffer, enable_multibyte_characters)))
8377 TEMP_SET_PT_BOTH (saved_pt + (coding->produced_char - chars),
8378 saved_pt_byte + (coding->produced - bytes));
8379 else
8380 TEMP_SET_PT_BOTH (saved_pt + (coding->produced - bytes),
8381 saved_pt_byte + (coding->produced - bytes));
8383 if (need_marker_adjustment)
8385 struct Lisp_Marker *tail;
8387 for (tail = BUF_MARKERS (current_buffer); tail; tail = tail->next)
8388 if (tail->need_adjustment)
8390 tail->need_adjustment = 0;
8391 if (tail->insertion_type)
8393 tail->bytepos = from_byte;
8394 tail->charpos = from;
8396 else
8398 tail->bytepos = from_byte + coding->produced;
8399 tail->charpos
8400 = (NILP (BVAR (current_buffer, enable_multibyte_characters))
8401 ? tail->bytepos : from + coding->produced_char);
8407 if (kill_src_buffer)
8408 Fkill_buffer (coding->src_object);
8410 Vdeactivate_mark = old_deactivate_mark;
8411 unbind_to (count, Qnil);
8415 Lisp_Object
8416 preferred_coding_system (void)
8418 int id = coding_categories[coding_priorities[0]].id;
8420 return CODING_ID_NAME (id);
8423 #if defined (WINDOWSNT) || defined (CYGWIN)
8425 Lisp_Object
8426 from_unicode (Lisp_Object str)
8428 CHECK_STRING (str);
8429 if (!STRING_MULTIBYTE (str) &&
8430 SBYTES (str) & 1)
8432 str = Fsubstring (str, make_number (0), make_number (-1));
8435 return code_convert_string_norecord (str, Qutf_16le, 0);
8438 Lisp_Object
8439 from_unicode_buffer (const wchar_t *wstr)
8441 /* We get one of the two final null bytes for free. */
8442 ptrdiff_t len = 1 + sizeof (wchar_t) * wcslen (wstr);
8443 AUTO_STRING_WITH_LEN (str, (char *) wstr, len);
8444 return from_unicode (str);
8447 wchar_t *
8448 to_unicode (Lisp_Object str, Lisp_Object *buf)
8450 *buf = code_convert_string_norecord (str, Qutf_16le, 1);
8451 /* We need to make another copy (in addition to the one made by
8452 code_convert_string_norecord) to ensure that the final string is
8453 _doubly_ zero terminated --- that is, that the string is
8454 terminated by two zero bytes and one utf-16le null character.
8455 Because strings are already terminated with a single zero byte,
8456 we just add one additional zero. */
8457 str = make_uninit_string (SBYTES (*buf) + 1);
8458 memcpy (SDATA (str), SDATA (*buf), SBYTES (*buf));
8459 SDATA (str) [SBYTES (*buf)] = '\0';
8460 *buf = str;
8461 return WCSDATA (*buf);
8464 #endif /* WINDOWSNT || CYGWIN */
8467 #ifdef emacs
8468 /*** 8. Emacs Lisp library functions ***/
8470 DEFUN ("coding-system-p", Fcoding_system_p, Scoding_system_p, 1, 1, 0,
8471 doc: /* Return t if OBJECT is nil or a coding-system.
8472 See the documentation of `define-coding-system' for information
8473 about coding-system objects. */)
8474 (Lisp_Object object)
8476 if (NILP (object)
8477 || CODING_SYSTEM_ID (object) >= 0)
8478 return Qt;
8479 if (! SYMBOLP (object)
8480 || NILP (Fget (object, Qcoding_system_define_form)))
8481 return Qnil;
8482 return Qt;
8485 DEFUN ("read-non-nil-coding-system", Fread_non_nil_coding_system,
8486 Sread_non_nil_coding_system, 1, 1, 0,
8487 doc: /* Read a coding system from the minibuffer, prompting with string PROMPT. */)
8488 (Lisp_Object prompt)
8490 Lisp_Object val;
8493 val = Fcompleting_read (prompt, Vcoding_system_alist, Qnil,
8494 Qt, Qnil, Qcoding_system_history, Qnil, Qnil);
8496 while (SCHARS (val) == 0);
8497 return (Fintern (val, Qnil));
8500 DEFUN ("read-coding-system", Fread_coding_system, Sread_coding_system, 1, 2, 0,
8501 doc: /* Read a coding system from the minibuffer, prompting with string PROMPT.
8502 If the user enters null input, return second argument DEFAULT-CODING-SYSTEM.
8503 Ignores case when completing coding systems (all Emacs coding systems
8504 are lower-case). */)
8505 (Lisp_Object prompt, Lisp_Object default_coding_system)
8507 Lisp_Object val;
8508 ptrdiff_t count = SPECPDL_INDEX ();
8510 if (SYMBOLP (default_coding_system))
8511 default_coding_system = SYMBOL_NAME (default_coding_system);
8512 specbind (Qcompletion_ignore_case, Qt);
8513 val = Fcompleting_read (prompt, Vcoding_system_alist, Qnil,
8514 Qt, Qnil, Qcoding_system_history,
8515 default_coding_system, Qnil);
8516 unbind_to (count, Qnil);
8517 return (SCHARS (val) == 0 ? Qnil : Fintern (val, Qnil));
8520 DEFUN ("check-coding-system", Fcheck_coding_system, Scheck_coding_system,
8521 1, 1, 0,
8522 doc: /* Check validity of CODING-SYSTEM.
8523 If valid, return CODING-SYSTEM, else signal a `coding-system-error' error.
8524 It is valid if it is nil or a symbol defined as a coding system by the
8525 function `define-coding-system'. */)
8526 (Lisp_Object coding_system)
8528 Lisp_Object define_form;
8530 define_form = Fget (coding_system, Qcoding_system_define_form);
8531 if (! NILP (define_form))
8533 Fput (coding_system, Qcoding_system_define_form, Qnil);
8534 safe_eval (define_form);
8536 if (!NILP (Fcoding_system_p (coding_system)))
8537 return coding_system;
8538 xsignal1 (Qcoding_system_error, coding_system);
8542 /* Detect how the bytes at SRC of length SRC_BYTES are encoded. If
8543 HIGHEST, return the coding system of the highest
8544 priority among the detected coding systems. Otherwise return a
8545 list of detected coding systems sorted by their priorities. If
8546 MULTIBYTEP, it is assumed that the bytes are in correct
8547 multibyte form but contains only ASCII and eight-bit chars.
8548 Otherwise, the bytes are raw bytes.
8550 CODING-SYSTEM controls the detection as below:
8552 If it is nil, detect both text-format and eol-format. If the
8553 text-format part of CODING-SYSTEM is already specified
8554 (e.g. `iso-latin-1'), detect only eol-format. If the eol-format
8555 part of CODING-SYSTEM is already specified (e.g. `undecided-unix'),
8556 detect only text-format. */
8558 Lisp_Object
8559 detect_coding_system (const unsigned char *src,
8560 ptrdiff_t src_chars, ptrdiff_t src_bytes,
8561 bool highest, bool multibytep,
8562 Lisp_Object coding_system)
8564 const unsigned char *src_end = src + src_bytes;
8565 Lisp_Object attrs, eol_type;
8566 Lisp_Object val = Qnil;
8567 struct coding_system coding;
8568 ptrdiff_t id;
8569 struct coding_detection_info detect_info;
8570 enum coding_category base_category;
8571 bool null_byte_found = 0, eight_bit_found = 0;
8573 if (NILP (coding_system))
8574 coding_system = Qundecided;
8575 setup_coding_system (coding_system, &coding);
8576 attrs = CODING_ID_ATTRS (coding.id);
8577 eol_type = CODING_ID_EOL_TYPE (coding.id);
8578 coding_system = CODING_ATTR_BASE_NAME (attrs);
8580 coding.source = src;
8581 coding.src_chars = src_chars;
8582 coding.src_bytes = src_bytes;
8583 coding.src_multibyte = multibytep;
8584 coding.consumed = 0;
8585 coding.mode |= CODING_MODE_LAST_BLOCK;
8586 coding.head_ascii = 0;
8588 detect_info.checked = detect_info.found = detect_info.rejected = 0;
8590 /* At first, detect text-format if necessary. */
8591 base_category = XINT (CODING_ATTR_CATEGORY (attrs));
8592 if (base_category == coding_category_undecided)
8594 enum coding_category category UNINIT;
8595 struct coding_system *this UNINIT;
8596 int c, i;
8597 bool inhibit_nbd = inhibit_flag (coding.spec.undecided.inhibit_nbd,
8598 inhibit_null_byte_detection);
8599 bool inhibit_ied = inhibit_flag (coding.spec.undecided.inhibit_ied,
8600 inhibit_iso_escape_detection);
8601 bool prefer_utf_8 = coding.spec.undecided.prefer_utf_8;
8603 /* Skip all ASCII bytes except for a few ISO2022 controls. */
8604 for (; src < src_end; src++)
8606 c = *src;
8607 if (c & 0x80)
8609 eight_bit_found = 1;
8610 if (null_byte_found)
8611 break;
8613 else if (c < 0x20)
8615 if ((c == ISO_CODE_ESC || c == ISO_CODE_SI || c == ISO_CODE_SO)
8616 && ! inhibit_ied
8617 && ! detect_info.checked)
8619 if (detect_coding_iso_2022 (&coding, &detect_info))
8621 /* We have scanned the whole data. */
8622 if (! (detect_info.rejected & CATEGORY_MASK_ISO_7_ELSE))
8624 /* We didn't find an 8-bit code. We may
8625 have found a null-byte, but it's very
8626 rare that a binary file confirm to
8627 ISO-2022. */
8628 src = src_end;
8629 coding.head_ascii = src - coding.source;
8631 detect_info.rejected |= ~CATEGORY_MASK_ISO_ESCAPE;
8632 break;
8635 else if (! c && !inhibit_nbd)
8637 null_byte_found = 1;
8638 if (eight_bit_found)
8639 break;
8641 if (! eight_bit_found)
8642 coding.head_ascii++;
8644 else if (! eight_bit_found)
8645 coding.head_ascii++;
8648 if (null_byte_found || eight_bit_found
8649 || coding.head_ascii < coding.src_bytes
8650 || detect_info.found)
8652 if (coding.head_ascii == coding.src_bytes)
8653 /* As all bytes are 7-bit, we can ignore non-ISO-2022 codings. */
8654 for (i = 0; i < coding_category_raw_text; i++)
8656 category = coding_priorities[i];
8657 this = coding_categories + category;
8658 if (detect_info.found & (1 << category))
8659 break;
8661 else
8663 if (null_byte_found)
8665 detect_info.checked |= ~CATEGORY_MASK_UTF_16;
8666 detect_info.rejected |= ~CATEGORY_MASK_UTF_16;
8668 else if (prefer_utf_8
8669 && detect_coding_utf_8 (&coding, &detect_info))
8671 detect_info.checked |= ~CATEGORY_MASK_UTF_8;
8672 detect_info.rejected |= ~CATEGORY_MASK_UTF_8;
8674 for (i = 0; i < coding_category_raw_text; i++)
8676 category = coding_priorities[i];
8677 this = coding_categories + category;
8679 if (this->id < 0)
8681 /* No coding system of this category is defined. */
8682 detect_info.rejected |= (1 << category);
8684 else if (category >= coding_category_raw_text)
8685 continue;
8686 else if (detect_info.checked & (1 << category))
8688 if (highest
8689 && (detect_info.found & (1 << category)))
8690 break;
8692 else if ((*(this->detector)) (&coding, &detect_info)
8693 && highest
8694 && (detect_info.found & (1 << category)))
8696 if (category == coding_category_utf_16_auto)
8698 if (detect_info.found & CATEGORY_MASK_UTF_16_LE)
8699 category = coding_category_utf_16_le;
8700 else
8701 category = coding_category_utf_16_be;
8703 break;
8709 if ((detect_info.rejected & CATEGORY_MASK_ANY) == CATEGORY_MASK_ANY
8710 || null_byte_found)
8712 detect_info.found = CATEGORY_MASK_RAW_TEXT;
8713 id = CODING_SYSTEM_ID (Qno_conversion);
8714 val = list1 (make_number (id));
8716 else if (! detect_info.rejected && ! detect_info.found)
8718 detect_info.found = CATEGORY_MASK_ANY;
8719 id = coding_categories[coding_category_undecided].id;
8720 val = list1 (make_number (id));
8722 else if (highest)
8724 if (detect_info.found)
8726 detect_info.found = 1 << category;
8727 val = list1 (make_number (this->id));
8729 else
8730 for (i = 0; i < coding_category_raw_text; i++)
8731 if (! (detect_info.rejected & (1 << coding_priorities[i])))
8733 detect_info.found = 1 << coding_priorities[i];
8734 id = coding_categories[coding_priorities[i]].id;
8735 val = list1 (make_number (id));
8736 break;
8739 else
8741 int mask = detect_info.rejected | detect_info.found;
8742 int found = 0;
8744 for (i = coding_category_raw_text - 1; i >= 0; i--)
8746 category = coding_priorities[i];
8747 if (! (mask & (1 << category)))
8749 found |= 1 << category;
8750 id = coding_categories[category].id;
8751 if (id >= 0)
8752 val = list1 (make_number (id));
8755 for (i = coding_category_raw_text - 1; i >= 0; i--)
8757 category = coding_priorities[i];
8758 if (detect_info.found & (1 << category))
8760 id = coding_categories[category].id;
8761 val = Fcons (make_number (id), val);
8764 detect_info.found |= found;
8767 else if (base_category == coding_category_utf_8_auto)
8769 if (detect_coding_utf_8 (&coding, &detect_info))
8771 struct coding_system *this;
8773 if (detect_info.found & CATEGORY_MASK_UTF_8_SIG)
8774 this = coding_categories + coding_category_utf_8_sig;
8775 else
8776 this = coding_categories + coding_category_utf_8_nosig;
8777 val = list1 (make_number (this->id));
8780 else if (base_category == coding_category_utf_16_auto)
8782 if (detect_coding_utf_16 (&coding, &detect_info))
8784 struct coding_system *this;
8786 if (detect_info.found & CATEGORY_MASK_UTF_16_LE)
8787 this = coding_categories + coding_category_utf_16_le;
8788 else if (detect_info.found & CATEGORY_MASK_UTF_16_BE)
8789 this = coding_categories + coding_category_utf_16_be;
8790 else if (detect_info.rejected & CATEGORY_MASK_UTF_16_LE_NOSIG)
8791 this = coding_categories + coding_category_utf_16_be_nosig;
8792 else
8793 this = coding_categories + coding_category_utf_16_le_nosig;
8794 val = list1 (make_number (this->id));
8797 else
8799 detect_info.found = 1 << XINT (CODING_ATTR_CATEGORY (attrs));
8800 val = list1 (make_number (coding.id));
8803 /* Then, detect eol-format if necessary. */
8805 int normal_eol = -1, utf_16_be_eol = -1, utf_16_le_eol = -1;
8806 Lisp_Object tail;
8808 if (VECTORP (eol_type))
8810 if (detect_info.found & ~CATEGORY_MASK_UTF_16)
8812 if (null_byte_found)
8813 normal_eol = EOL_SEEN_LF;
8814 else
8815 normal_eol = detect_eol (coding.source, src_bytes,
8816 coding_category_raw_text);
8818 if (detect_info.found & (CATEGORY_MASK_UTF_16_BE
8819 | CATEGORY_MASK_UTF_16_BE_NOSIG))
8820 utf_16_be_eol = detect_eol (coding.source, src_bytes,
8821 coding_category_utf_16_be);
8822 if (detect_info.found & (CATEGORY_MASK_UTF_16_LE
8823 | CATEGORY_MASK_UTF_16_LE_NOSIG))
8824 utf_16_le_eol = detect_eol (coding.source, src_bytes,
8825 coding_category_utf_16_le);
8827 else
8829 if (EQ (eol_type, Qunix))
8830 normal_eol = utf_16_be_eol = utf_16_le_eol = EOL_SEEN_LF;
8831 else if (EQ (eol_type, Qdos))
8832 normal_eol = utf_16_be_eol = utf_16_le_eol = EOL_SEEN_CRLF;
8833 else
8834 normal_eol = utf_16_be_eol = utf_16_le_eol = EOL_SEEN_CR;
8837 for (tail = val; CONSP (tail); tail = XCDR (tail))
8839 enum coding_category category;
8840 int this_eol;
8842 id = XINT (XCAR (tail));
8843 attrs = CODING_ID_ATTRS (id);
8844 category = XINT (CODING_ATTR_CATEGORY (attrs));
8845 eol_type = CODING_ID_EOL_TYPE (id);
8846 if (VECTORP (eol_type))
8848 if (category == coding_category_utf_16_be
8849 || category == coding_category_utf_16_be_nosig)
8850 this_eol = utf_16_be_eol;
8851 else if (category == coding_category_utf_16_le
8852 || category == coding_category_utf_16_le_nosig)
8853 this_eol = utf_16_le_eol;
8854 else
8855 this_eol = normal_eol;
8857 if (this_eol == EOL_SEEN_LF)
8858 XSETCAR (tail, AREF (eol_type, 0));
8859 else if (this_eol == EOL_SEEN_CRLF)
8860 XSETCAR (tail, AREF (eol_type, 1));
8861 else if (this_eol == EOL_SEEN_CR)
8862 XSETCAR (tail, AREF (eol_type, 2));
8863 else
8864 XSETCAR (tail, CODING_ID_NAME (id));
8866 else
8867 XSETCAR (tail, CODING_ID_NAME (id));
8871 return (highest ? (CONSP (val) ? XCAR (val) : Qnil) : val);
8875 DEFUN ("detect-coding-region", Fdetect_coding_region, Sdetect_coding_region,
8876 2, 3, 0,
8877 doc: /* Detect coding system of the text in the region between START and END.
8878 Return a list of possible coding systems ordered by priority.
8879 The coding systems to try and their priorities follows what
8880 the function `coding-system-priority-list' (which see) returns.
8882 If only ASCII characters are found (except for such ISO-2022 control
8883 characters as ESC), it returns a list of single element `undecided'
8884 or its subsidiary coding system according to a detected end-of-line
8885 format.
8887 If optional argument HIGHEST is non-nil, return the coding system of
8888 highest priority. */)
8889 (Lisp_Object start, Lisp_Object end, Lisp_Object highest)
8891 ptrdiff_t from, to;
8892 ptrdiff_t from_byte, to_byte;
8894 validate_region (&start, &end);
8895 from = XINT (start), to = XINT (end);
8896 from_byte = CHAR_TO_BYTE (from);
8897 to_byte = CHAR_TO_BYTE (to);
8899 if (from < GPT && to >= GPT)
8900 move_gap_both (to, to_byte);
8902 return detect_coding_system (BYTE_POS_ADDR (from_byte),
8903 to - from, to_byte - from_byte,
8904 !NILP (highest),
8905 !NILP (BVAR (current_buffer
8906 , enable_multibyte_characters)),
8907 Qnil);
8910 DEFUN ("detect-coding-string", Fdetect_coding_string, Sdetect_coding_string,
8911 1, 2, 0,
8912 doc: /* Detect coding system of the text in STRING.
8913 Return a list of possible coding systems ordered by priority.
8914 The coding systems to try and their priorities follows what
8915 the function `coding-system-priority-list' (which see) returns.
8917 If only ASCII characters are found (except for such ISO-2022 control
8918 characters as ESC), it returns a list of single element `undecided'
8919 or its subsidiary coding system according to a detected end-of-line
8920 format.
8922 If optional argument HIGHEST is non-nil, return the coding system of
8923 highest priority. */)
8924 (Lisp_Object string, Lisp_Object highest)
8926 CHECK_STRING (string);
8928 return detect_coding_system (SDATA (string),
8929 SCHARS (string), SBYTES (string),
8930 !NILP (highest), STRING_MULTIBYTE (string),
8931 Qnil);
8935 static bool
8936 char_encodable_p (int c, Lisp_Object attrs)
8938 Lisp_Object tail;
8939 struct charset *charset;
8940 Lisp_Object translation_table;
8942 translation_table = CODING_ATTR_TRANS_TBL (attrs);
8943 if (! NILP (translation_table))
8944 c = translate_char (translation_table, c);
8945 for (tail = CODING_ATTR_CHARSET_LIST (attrs);
8946 CONSP (tail); tail = XCDR (tail))
8948 charset = CHARSET_FROM_ID (XINT (XCAR (tail)));
8949 if (CHAR_CHARSET_P (c, charset))
8950 break;
8952 return (! NILP (tail));
8956 /* Return a list of coding systems that safely encode the text between
8957 START and END. If EXCLUDE is non-nil, it is a list of coding
8958 systems not to check. The returned list doesn't contain any such
8959 coding systems. In any case, if the text contains only ASCII or is
8960 unibyte, return t. */
8962 DEFUN ("find-coding-systems-region-internal",
8963 Ffind_coding_systems_region_internal,
8964 Sfind_coding_systems_region_internal, 2, 3, 0,
8965 doc: /* Internal use only. */)
8966 (Lisp_Object start, Lisp_Object end, Lisp_Object exclude)
8968 Lisp_Object coding_attrs_list, safe_codings;
8969 ptrdiff_t start_byte, end_byte;
8970 const unsigned char *p, *pbeg, *pend;
8971 int c;
8972 Lisp_Object tail, elt, work_table;
8974 if (STRINGP (start))
8976 if (!STRING_MULTIBYTE (start)
8977 || SCHARS (start) == SBYTES (start))
8978 return Qt;
8979 start_byte = 0;
8980 end_byte = SBYTES (start);
8982 else
8984 CHECK_NUMBER_COERCE_MARKER (start);
8985 CHECK_NUMBER_COERCE_MARKER (end);
8986 if (XINT (start) < BEG || XINT (end) > Z || XINT (start) > XINT (end))
8987 args_out_of_range (start, end);
8988 if (NILP (BVAR (current_buffer, enable_multibyte_characters)))
8989 return Qt;
8990 start_byte = CHAR_TO_BYTE (XINT (start));
8991 end_byte = CHAR_TO_BYTE (XINT (end));
8992 if (XINT (end) - XINT (start) == end_byte - start_byte)
8993 return Qt;
8995 if (XINT (start) < GPT && XINT (end) > GPT)
8997 if ((GPT - XINT (start)) < (XINT (end) - GPT))
8998 move_gap_both (XINT (start), start_byte);
8999 else
9000 move_gap_both (XINT (end), end_byte);
9004 coding_attrs_list = Qnil;
9005 for (tail = Vcoding_system_list; CONSP (tail); tail = XCDR (tail))
9006 if (NILP (exclude)
9007 || NILP (Fmemq (XCAR (tail), exclude)))
9009 Lisp_Object attrs;
9011 attrs = AREF (CODING_SYSTEM_SPEC (XCAR (tail)), 0);
9012 if (EQ (XCAR (tail), CODING_ATTR_BASE_NAME (attrs)))
9014 ASET (attrs, coding_attr_trans_tbl,
9015 get_translation_table (attrs, 1, NULL));
9016 coding_attrs_list = Fcons (attrs, coding_attrs_list);
9020 if (STRINGP (start))
9021 p = pbeg = SDATA (start);
9022 else
9023 p = pbeg = BYTE_POS_ADDR (start_byte);
9024 pend = p + (end_byte - start_byte);
9026 while (p < pend && ASCII_CHAR_P (*p)) p++;
9027 while (p < pend && ASCII_CHAR_P (*(pend - 1))) pend--;
9029 work_table = Fmake_char_table (Qnil, Qnil);
9030 while (p < pend)
9032 if (ASCII_CHAR_P (*p))
9033 p++;
9034 else
9036 c = STRING_CHAR_ADVANCE (p);
9037 if (!NILP (char_table_ref (work_table, c)))
9038 /* This character was already checked. Ignore it. */
9039 continue;
9041 charset_map_loaded = 0;
9042 for (tail = coding_attrs_list; CONSP (tail);)
9044 elt = XCAR (tail);
9045 if (NILP (elt))
9046 tail = XCDR (tail);
9047 else if (char_encodable_p (c, elt))
9048 tail = XCDR (tail);
9049 else if (CONSP (XCDR (tail)))
9051 XSETCAR (tail, XCAR (XCDR (tail)));
9052 XSETCDR (tail, XCDR (XCDR (tail)));
9054 else
9056 XSETCAR (tail, Qnil);
9057 tail = XCDR (tail);
9060 if (charset_map_loaded)
9062 ptrdiff_t p_offset = p - pbeg, pend_offset = pend - pbeg;
9064 if (STRINGP (start))
9065 pbeg = SDATA (start);
9066 else
9067 pbeg = BYTE_POS_ADDR (start_byte);
9068 p = pbeg + p_offset;
9069 pend = pbeg + pend_offset;
9071 char_table_set (work_table, c, Qt);
9075 safe_codings = list2 (Qraw_text, Qno_conversion);
9076 for (tail = coding_attrs_list; CONSP (tail); tail = XCDR (tail))
9077 if (! NILP (XCAR (tail)))
9078 safe_codings = Fcons (CODING_ATTR_BASE_NAME (XCAR (tail)), safe_codings);
9080 return safe_codings;
9084 DEFUN ("unencodable-char-position", Funencodable_char_position,
9085 Sunencodable_char_position, 3, 5, 0,
9086 doc: /* Return position of first un-encodable character in a region.
9087 START and END specify the region and CODING-SYSTEM specifies the
9088 encoding to check. Return nil if CODING-SYSTEM does encode the region.
9090 If optional 4th argument COUNT is non-nil, it specifies at most how
9091 many un-encodable characters to search. In this case, the value is a
9092 list of positions.
9094 If optional 5th argument STRING is non-nil, it is a string to search
9095 for un-encodable characters. In that case, START and END are indexes
9096 to the string and treated as in `substring'. */)
9097 (Lisp_Object start, Lisp_Object end, Lisp_Object coding_system,
9098 Lisp_Object count, Lisp_Object string)
9100 EMACS_INT n;
9101 struct coding_system coding;
9102 Lisp_Object attrs, charset_list, translation_table;
9103 Lisp_Object positions;
9104 ptrdiff_t from, to;
9105 const unsigned char *p, *stop, *pend;
9106 bool ascii_compatible;
9108 setup_coding_system (Fcheck_coding_system (coding_system), &coding);
9109 attrs = CODING_ID_ATTRS (coding.id);
9110 if (EQ (CODING_ATTR_TYPE (attrs), Qraw_text))
9111 return Qnil;
9112 ascii_compatible = ! NILP (CODING_ATTR_ASCII_COMPAT (attrs));
9113 charset_list = CODING_ATTR_CHARSET_LIST (attrs);
9114 translation_table = get_translation_table (attrs, 1, NULL);
9116 if (NILP (string))
9118 validate_region (&start, &end);
9119 from = XINT (start);
9120 to = XINT (end);
9121 if (NILP (BVAR (current_buffer, enable_multibyte_characters))
9122 || (ascii_compatible
9123 && (to - from) == (CHAR_TO_BYTE (to) - (CHAR_TO_BYTE (from)))))
9124 return Qnil;
9125 p = CHAR_POS_ADDR (from);
9126 pend = CHAR_POS_ADDR (to);
9127 if (from < GPT && to >= GPT)
9128 stop = GPT_ADDR;
9129 else
9130 stop = pend;
9132 else
9134 CHECK_STRING (string);
9135 validate_subarray (string, start, end, SCHARS (string), &from, &to);
9136 if (! STRING_MULTIBYTE (string))
9137 return Qnil;
9138 p = SDATA (string) + string_char_to_byte (string, from);
9139 stop = pend = SDATA (string) + string_char_to_byte (string, to);
9140 if (ascii_compatible && (to - from) == (pend - p))
9141 return Qnil;
9144 if (NILP (count))
9145 n = 1;
9146 else
9148 CHECK_NATNUM (count);
9149 n = XINT (count);
9152 positions = Qnil;
9153 charset_map_loaded = 0;
9154 while (1)
9156 int c;
9158 if (ascii_compatible)
9159 while (p < stop && ASCII_CHAR_P (*p))
9160 p++, from++;
9161 if (p >= stop)
9163 if (p >= pend)
9164 break;
9165 stop = pend;
9166 p = GAP_END_ADDR;
9169 c = STRING_CHAR_ADVANCE (p);
9170 if (! (ASCII_CHAR_P (c) && ascii_compatible)
9171 && ! char_charset (translate_char (translation_table, c),
9172 charset_list, NULL))
9174 positions = Fcons (make_number (from), positions);
9175 n--;
9176 if (n == 0)
9177 break;
9180 from++;
9181 if (charset_map_loaded && NILP (string))
9183 p = CHAR_POS_ADDR (from);
9184 pend = CHAR_POS_ADDR (to);
9185 if (from < GPT && to >= GPT)
9186 stop = GPT_ADDR;
9187 else
9188 stop = pend;
9189 charset_map_loaded = 0;
9193 return (NILP (count) ? Fcar (positions) : Fnreverse (positions));
9197 DEFUN ("check-coding-systems-region", Fcheck_coding_systems_region,
9198 Scheck_coding_systems_region, 3, 3, 0,
9199 doc: /* Check if the region is encodable by coding systems.
9201 START and END are buffer positions specifying the region.
9202 CODING-SYSTEM-LIST is a list of coding systems to check.
9204 The value is an alist ((CODING-SYSTEM POS0 POS1 ...) ...), where
9205 CODING-SYSTEM is a member of CODING-SYSTEM-LIST and can't encode the
9206 whole region, POS0, POS1, ... are buffer positions where non-encodable
9207 characters are found.
9209 If all coding systems in CODING-SYSTEM-LIST can encode the region, the
9210 value is nil.
9212 START may be a string. In that case, check if the string is
9213 encodable, and the value contains indices to the string instead of
9214 buffer positions. END is ignored.
9216 If the current buffer (or START if it is a string) is unibyte, the value
9217 is nil. */)
9218 (Lisp_Object start, Lisp_Object end, Lisp_Object coding_system_list)
9220 Lisp_Object list;
9221 ptrdiff_t start_byte, end_byte;
9222 ptrdiff_t pos;
9223 const unsigned char *p, *pbeg, *pend;
9224 int c;
9225 Lisp_Object tail, elt, attrs;
9227 if (STRINGP (start))
9229 if (!STRING_MULTIBYTE (start)
9230 || SCHARS (start) == SBYTES (start))
9231 return Qnil;
9232 start_byte = 0;
9233 end_byte = SBYTES (start);
9234 pos = 0;
9236 else
9238 CHECK_NUMBER_COERCE_MARKER (start);
9239 CHECK_NUMBER_COERCE_MARKER (end);
9240 if (XINT (start) < BEG || XINT (end) > Z || XINT (start) > XINT (end))
9241 args_out_of_range (start, end);
9242 if (NILP (BVAR (current_buffer, enable_multibyte_characters)))
9243 return Qnil;
9244 start_byte = CHAR_TO_BYTE (XINT (start));
9245 end_byte = CHAR_TO_BYTE (XINT (end));
9246 if (XINT (end) - XINT (start) == end_byte - start_byte)
9247 return Qnil;
9249 if (XINT (start) < GPT && XINT (end) > GPT)
9251 if ((GPT - XINT (start)) < (XINT (end) - GPT))
9252 move_gap_both (XINT (start), start_byte);
9253 else
9254 move_gap_both (XINT (end), end_byte);
9256 pos = XINT (start);
9259 list = Qnil;
9260 for (tail = coding_system_list; CONSP (tail); tail = XCDR (tail))
9262 elt = XCAR (tail);
9263 attrs = AREF (CODING_SYSTEM_SPEC (elt), 0);
9264 ASET (attrs, coding_attr_trans_tbl,
9265 get_translation_table (attrs, 1, NULL));
9266 list = Fcons (list2 (elt, attrs), list);
9269 if (STRINGP (start))
9270 p = pbeg = SDATA (start);
9271 else
9272 p = pbeg = BYTE_POS_ADDR (start_byte);
9273 pend = p + (end_byte - start_byte);
9275 while (p < pend && ASCII_CHAR_P (*p)) p++, pos++;
9276 while (p < pend && ASCII_CHAR_P (*(pend - 1))) pend--;
9278 while (p < pend)
9280 if (ASCII_CHAR_P (*p))
9281 p++;
9282 else
9284 c = STRING_CHAR_ADVANCE (p);
9286 charset_map_loaded = 0;
9287 for (tail = list; CONSP (tail); tail = XCDR (tail))
9289 elt = XCDR (XCAR (tail));
9290 if (! char_encodable_p (c, XCAR (elt)))
9291 XSETCDR (elt, Fcons (make_number (pos), XCDR (elt)));
9293 if (charset_map_loaded)
9295 ptrdiff_t p_offset = p - pbeg, pend_offset = pend - pbeg;
9297 if (STRINGP (start))
9298 pbeg = SDATA (start);
9299 else
9300 pbeg = BYTE_POS_ADDR (start_byte);
9301 p = pbeg + p_offset;
9302 pend = pbeg + pend_offset;
9305 pos++;
9308 tail = list;
9309 list = Qnil;
9310 for (; CONSP (tail); tail = XCDR (tail))
9312 elt = XCAR (tail);
9313 if (CONSP (XCDR (XCDR (elt))))
9314 list = Fcons (Fcons (XCAR (elt), Fnreverse (XCDR (XCDR (elt)))),
9315 list);
9318 return list;
9322 static Lisp_Object
9323 code_convert_region (Lisp_Object start, Lisp_Object end,
9324 Lisp_Object coding_system, Lisp_Object dst_object,
9325 bool encodep, bool norecord)
9327 struct coding_system coding;
9328 ptrdiff_t from, from_byte, to, to_byte;
9329 Lisp_Object src_object;
9331 if (NILP (coding_system))
9332 coding_system = Qno_conversion;
9333 else
9334 CHECK_CODING_SYSTEM (coding_system);
9335 src_object = Fcurrent_buffer ();
9336 if (NILP (dst_object))
9337 dst_object = src_object;
9338 else if (! EQ (dst_object, Qt))
9339 CHECK_BUFFER (dst_object);
9341 validate_region (&start, &end);
9342 from = XFASTINT (start);
9343 from_byte = CHAR_TO_BYTE (from);
9344 to = XFASTINT (end);
9345 to_byte = CHAR_TO_BYTE (to);
9347 setup_coding_system (coding_system, &coding);
9348 coding.mode |= CODING_MODE_LAST_BLOCK;
9350 if (BUFFERP (dst_object) && !EQ (dst_object, src_object))
9352 struct buffer *buf = XBUFFER (dst_object);
9353 ptrdiff_t buf_pt = BUF_PT (buf);
9355 invalidate_buffer_caches (buf, buf_pt, buf_pt);
9358 if (encodep)
9359 encode_coding_object (&coding, src_object, from, from_byte, to, to_byte,
9360 dst_object);
9361 else
9362 decode_coding_object (&coding, src_object, from, from_byte, to, to_byte,
9363 dst_object);
9364 if (! norecord)
9365 Vlast_coding_system_used = CODING_ID_NAME (coding.id);
9367 return (BUFFERP (dst_object)
9368 ? make_number (coding.produced_char)
9369 : coding.dst_object);
9373 DEFUN ("decode-coding-region", Fdecode_coding_region, Sdecode_coding_region,
9374 3, 4, "r\nzCoding system: ",
9375 doc: /* Decode the current region from the specified coding system.
9376 When called from a program, takes four arguments:
9377 START, END, CODING-SYSTEM, and DESTINATION.
9378 START and END are buffer positions.
9380 Optional 4th arguments DESTINATION specifies where the decoded text goes.
9381 If nil, the region between START and END is replaced by the decoded text.
9382 If buffer, the decoded text is inserted in that buffer after point (point
9383 does not move).
9384 In those cases, the length of the decoded text is returned.
9385 If DESTINATION is t, the decoded text is returned.
9387 This function sets `last-coding-system-used' to the precise coding system
9388 used (which may be different from CODING-SYSTEM if CODING-SYSTEM is
9389 not fully specified.) */)
9390 (Lisp_Object start, Lisp_Object end, Lisp_Object coding_system, Lisp_Object destination)
9392 return code_convert_region (start, end, coding_system, destination, 0, 0);
9395 DEFUN ("encode-coding-region", Fencode_coding_region, Sencode_coding_region,
9396 3, 4, "r\nzCoding system: ",
9397 doc: /* Encode the current region by specified coding system.
9398 When called from a program, takes four arguments:
9399 START, END, CODING-SYSTEM and DESTINATION.
9400 START and END are buffer positions.
9402 Optional 4th arguments DESTINATION specifies where the encoded text goes.
9403 If nil, the region between START and END is replace by the encoded text.
9404 If buffer, the encoded text is inserted in that buffer after point (point
9405 does not move).
9406 In those cases, the length of the encoded text is returned.
9407 If DESTINATION is t, the encoded text is returned.
9409 This function sets `last-coding-system-used' to the precise coding system
9410 used (which may be different from CODING-SYSTEM if CODING-SYSTEM is
9411 not fully specified.) */)
9412 (Lisp_Object start, Lisp_Object end, Lisp_Object coding_system, Lisp_Object destination)
9414 return code_convert_region (start, end, coding_system, destination, 1, 0);
9417 Lisp_Object
9418 code_convert_string (Lisp_Object string, Lisp_Object coding_system,
9419 Lisp_Object dst_object, bool encodep, bool nocopy,
9420 bool norecord)
9422 struct coding_system coding;
9423 ptrdiff_t chars, bytes;
9425 CHECK_STRING (string);
9426 if (NILP (coding_system))
9428 if (! norecord)
9429 Vlast_coding_system_used = Qno_conversion;
9430 if (NILP (dst_object))
9431 return (nocopy ? Fcopy_sequence (string) : string);
9434 if (NILP (coding_system))
9435 coding_system = Qno_conversion;
9436 else
9437 CHECK_CODING_SYSTEM (coding_system);
9438 if (NILP (dst_object))
9439 dst_object = Qt;
9440 else if (! EQ (dst_object, Qt))
9441 CHECK_BUFFER (dst_object);
9443 setup_coding_system (coding_system, &coding);
9444 coding.mode |= CODING_MODE_LAST_BLOCK;
9445 chars = SCHARS (string);
9446 bytes = SBYTES (string);
9448 if (BUFFERP (dst_object))
9450 struct buffer *buf = XBUFFER (dst_object);
9451 ptrdiff_t buf_pt = BUF_PT (buf);
9453 invalidate_buffer_caches (buf, buf_pt, buf_pt);
9456 if (encodep)
9457 encode_coding_object (&coding, string, 0, 0, chars, bytes, dst_object);
9458 else
9459 decode_coding_object (&coding, string, 0, 0, chars, bytes, dst_object);
9460 if (! norecord)
9461 Vlast_coding_system_used = CODING_ID_NAME (coding.id);
9463 return (BUFFERP (dst_object)
9464 ? make_number (coding.produced_char)
9465 : coding.dst_object);
9469 /* Encode or decode STRING according to CODING_SYSTEM.
9470 Do not set Vlast_coding_system_used.
9472 This function is called only from macros DECODE_FILE and
9473 ENCODE_FILE, thus we ignore character composition. */
9475 Lisp_Object
9476 code_convert_string_norecord (Lisp_Object string, Lisp_Object coding_system,
9477 bool encodep)
9479 return code_convert_string (string, coding_system, Qt, encodep, 0, 1);
9482 /* Encode or decode a file name, to or from a unibyte string suitable
9483 for passing to C library functions. */
9484 Lisp_Object
9485 decode_file_name (Lisp_Object fname)
9487 #ifdef WINDOWSNT
9488 /* The w32 build pretends to use UTF-8 for file-name encoding, and
9489 converts the file names either to UTF-16LE or to the system ANSI
9490 codepage internally, depending on the underlying OS; see w32.c. */
9491 if (! NILP (Fcoding_system_p (Qutf_8)))
9492 return code_convert_string_norecord (fname, Qutf_8, 0);
9493 return fname;
9494 #else /* !WINDOWSNT */
9495 if (! NILP (Vfile_name_coding_system))
9496 return code_convert_string_norecord (fname, Vfile_name_coding_system, 0);
9497 else if (! NILP (Vdefault_file_name_coding_system))
9498 return code_convert_string_norecord (fname,
9499 Vdefault_file_name_coding_system, 0);
9500 else
9501 return fname;
9502 #endif
9505 Lisp_Object
9506 encode_file_name (Lisp_Object fname)
9508 /* This is especially important during bootstrap and dumping, when
9509 file-name encoding is not yet known, and therefore any non-ASCII
9510 file names are unibyte strings, and could only be thrashed if we
9511 try to encode them. */
9512 if (!STRING_MULTIBYTE (fname))
9513 return fname;
9514 #ifdef WINDOWSNT
9515 /* The w32 build pretends to use UTF-8 for file-name encoding, and
9516 converts the file names either to UTF-16LE or to the system ANSI
9517 codepage internally, depending on the underlying OS; see w32.c. */
9518 if (! NILP (Fcoding_system_p (Qutf_8)))
9519 return code_convert_string_norecord (fname, Qutf_8, 1);
9520 return fname;
9521 #else /* !WINDOWSNT */
9522 if (! NILP (Vfile_name_coding_system))
9523 return code_convert_string_norecord (fname, Vfile_name_coding_system, 1);
9524 else if (! NILP (Vdefault_file_name_coding_system))
9525 return code_convert_string_norecord (fname,
9526 Vdefault_file_name_coding_system, 1);
9527 else
9528 return fname;
9529 #endif
9532 DEFUN ("decode-coding-string", Fdecode_coding_string, Sdecode_coding_string,
9533 2, 4, 0,
9534 doc: /* Decode STRING which is encoded in CODING-SYSTEM, and return the result.
9536 Optional third arg NOCOPY non-nil means it is OK to return STRING itself
9537 if the decoding operation is trivial.
9539 Optional fourth arg BUFFER non-nil means that the decoded text is
9540 inserted in that buffer after point (point does not move). In this
9541 case, the return value is the length of the decoded text.
9543 This function sets `last-coding-system-used' to the precise coding system
9544 used (which may be different from CODING-SYSTEM if CODING-SYSTEM is
9545 not fully specified.) */)
9546 (Lisp_Object string, Lisp_Object coding_system, Lisp_Object nocopy, Lisp_Object buffer)
9548 return code_convert_string (string, coding_system, buffer,
9549 0, ! NILP (nocopy), 0);
9552 DEFUN ("encode-coding-string", Fencode_coding_string, Sencode_coding_string,
9553 2, 4, 0,
9554 doc: /* Encode STRING to CODING-SYSTEM, and return the result.
9556 Optional third arg NOCOPY non-nil means it is OK to return STRING
9557 itself if the encoding operation is trivial.
9559 Optional fourth arg BUFFER non-nil means that the encoded text is
9560 inserted in that buffer after point (point does not move). In this
9561 case, the return value is the length of the encoded text.
9563 This function sets `last-coding-system-used' to the precise coding system
9564 used (which may be different from CODING-SYSTEM if CODING-SYSTEM is
9565 not fully specified.) */)
9566 (Lisp_Object string, Lisp_Object coding_system, Lisp_Object nocopy, Lisp_Object buffer)
9568 return code_convert_string (string, coding_system, buffer,
9569 1, ! NILP (nocopy), 0);
9573 DEFUN ("decode-sjis-char", Fdecode_sjis_char, Sdecode_sjis_char, 1, 1, 0,
9574 doc: /* Decode a Japanese character which has CODE in shift_jis encoding.
9575 Return the corresponding character. */)
9576 (Lisp_Object code)
9578 Lisp_Object spec, attrs, val;
9579 struct charset *charset_roman, *charset_kanji, *charset_kana, *charset;
9580 EMACS_INT ch;
9581 int c;
9583 CHECK_NATNUM (code);
9584 ch = XFASTINT (code);
9585 CHECK_CODING_SYSTEM_GET_SPEC (Vsjis_coding_system, spec);
9586 attrs = AREF (spec, 0);
9588 if (ASCII_CHAR_P (ch)
9589 && ! NILP (CODING_ATTR_ASCII_COMPAT (attrs)))
9590 return code;
9592 val = CODING_ATTR_CHARSET_LIST (attrs);
9593 charset_roman = CHARSET_FROM_ID (XINT (XCAR (val))), val = XCDR (val);
9594 charset_kana = CHARSET_FROM_ID (XINT (XCAR (val))), val = XCDR (val);
9595 charset_kanji = CHARSET_FROM_ID (XINT (XCAR (val)));
9597 if (ch <= 0x7F)
9599 c = ch;
9600 charset = charset_roman;
9602 else if (ch >= 0xA0 && ch < 0xDF)
9604 c = ch - 0x80;
9605 charset = charset_kana;
9607 else
9609 EMACS_INT c1 = ch >> 8;
9610 int c2 = ch & 0xFF;
9612 if (c1 < 0x81 || (c1 > 0x9F && c1 < 0xE0) || c1 > 0xEF
9613 || c2 < 0x40 || c2 == 0x7F || c2 > 0xFC)
9614 error ("Invalid code: %"pI"d", ch);
9615 c = ch;
9616 SJIS_TO_JIS (c);
9617 charset = charset_kanji;
9619 c = DECODE_CHAR (charset, c);
9620 if (c < 0)
9621 error ("Invalid code: %"pI"d", ch);
9622 return make_number (c);
9626 DEFUN ("encode-sjis-char", Fencode_sjis_char, Sencode_sjis_char, 1, 1, 0,
9627 doc: /* Encode a Japanese character CH to shift_jis encoding.
9628 Return the corresponding code in SJIS. */)
9629 (Lisp_Object ch)
9631 Lisp_Object spec, attrs, charset_list;
9632 int c;
9633 struct charset *charset;
9634 unsigned code;
9636 CHECK_CHARACTER (ch);
9637 c = XFASTINT (ch);
9638 CHECK_CODING_SYSTEM_GET_SPEC (Vsjis_coding_system, spec);
9639 attrs = AREF (spec, 0);
9641 if (ASCII_CHAR_P (c)
9642 && ! NILP (CODING_ATTR_ASCII_COMPAT (attrs)))
9643 return ch;
9645 charset_list = CODING_ATTR_CHARSET_LIST (attrs);
9646 charset = char_charset (c, charset_list, &code);
9647 if (code == CHARSET_INVALID_CODE (charset))
9648 error ("Can't encode by shift_jis encoding: %c", c);
9649 JIS_TO_SJIS (code);
9651 return make_number (code);
9654 DEFUN ("decode-big5-char", Fdecode_big5_char, Sdecode_big5_char, 1, 1, 0,
9655 doc: /* Decode a Big5 character which has CODE in BIG5 coding system.
9656 Return the corresponding character. */)
9657 (Lisp_Object code)
9659 Lisp_Object spec, attrs, val;
9660 struct charset *charset_roman, *charset_big5, *charset;
9661 EMACS_INT ch;
9662 int c;
9664 CHECK_NATNUM (code);
9665 ch = XFASTINT (code);
9666 CHECK_CODING_SYSTEM_GET_SPEC (Vbig5_coding_system, spec);
9667 attrs = AREF (spec, 0);
9669 if (ASCII_CHAR_P (ch)
9670 && ! NILP (CODING_ATTR_ASCII_COMPAT (attrs)))
9671 return code;
9673 val = CODING_ATTR_CHARSET_LIST (attrs);
9674 charset_roman = CHARSET_FROM_ID (XINT (XCAR (val))), val = XCDR (val);
9675 charset_big5 = CHARSET_FROM_ID (XINT (XCAR (val)));
9677 if (ch <= 0x7F)
9679 c = ch;
9680 charset = charset_roman;
9682 else
9684 EMACS_INT b1 = ch >> 8;
9685 int b2 = ch & 0x7F;
9686 if (b1 < 0xA1 || b1 > 0xFE
9687 || b2 < 0x40 || (b2 > 0x7E && b2 < 0xA1) || b2 > 0xFE)
9688 error ("Invalid code: %"pI"d", ch);
9689 c = ch;
9690 charset = charset_big5;
9692 c = DECODE_CHAR (charset, c);
9693 if (c < 0)
9694 error ("Invalid code: %"pI"d", ch);
9695 return make_number (c);
9698 DEFUN ("encode-big5-char", Fencode_big5_char, Sencode_big5_char, 1, 1, 0,
9699 doc: /* Encode the Big5 character CH to BIG5 coding system.
9700 Return the corresponding character code in Big5. */)
9701 (Lisp_Object ch)
9703 Lisp_Object spec, attrs, charset_list;
9704 struct charset *charset;
9705 int c;
9706 unsigned code;
9708 CHECK_CHARACTER (ch);
9709 c = XFASTINT (ch);
9710 CHECK_CODING_SYSTEM_GET_SPEC (Vbig5_coding_system, spec);
9711 attrs = AREF (spec, 0);
9712 if (ASCII_CHAR_P (c)
9713 && ! NILP (CODING_ATTR_ASCII_COMPAT (attrs)))
9714 return ch;
9716 charset_list = CODING_ATTR_CHARSET_LIST (attrs);
9717 charset = char_charset (c, charset_list, &code);
9718 if (code == CHARSET_INVALID_CODE (charset))
9719 error ("Can't encode by Big5 encoding: %c", c);
9721 return make_number (code);
9725 DEFUN ("set-terminal-coding-system-internal", Fset_terminal_coding_system_internal,
9726 Sset_terminal_coding_system_internal, 1, 2, 0,
9727 doc: /* Internal use only. */)
9728 (Lisp_Object coding_system, Lisp_Object terminal)
9730 struct terminal *term = decode_live_terminal (terminal);
9731 struct coding_system *terminal_coding = TERMINAL_TERMINAL_CODING (term);
9732 CHECK_SYMBOL (coding_system);
9733 setup_coding_system (Fcheck_coding_system (coding_system), terminal_coding);
9734 /* We had better not send unsafe characters to terminal. */
9735 terminal_coding->mode |= CODING_MODE_SAFE_ENCODING;
9736 /* Character composition should be disabled. */
9737 terminal_coding->common_flags &= ~CODING_ANNOTATE_COMPOSITION_MASK;
9738 terminal_coding->src_multibyte = 1;
9739 terminal_coding->dst_multibyte = 0;
9740 tset_charset_list
9741 (term, (terminal_coding->common_flags & CODING_REQUIRE_ENCODING_MASK
9742 ? coding_charset_list (terminal_coding)
9743 : list1 (make_number (charset_ascii))));
9744 return Qnil;
9747 DEFUN ("set-safe-terminal-coding-system-internal",
9748 Fset_safe_terminal_coding_system_internal,
9749 Sset_safe_terminal_coding_system_internal, 1, 1, 0,
9750 doc: /* Internal use only. */)
9751 (Lisp_Object coding_system)
9753 CHECK_SYMBOL (coding_system);
9754 setup_coding_system (Fcheck_coding_system (coding_system),
9755 &safe_terminal_coding);
9756 /* Character composition should be disabled. */
9757 safe_terminal_coding.common_flags &= ~CODING_ANNOTATE_COMPOSITION_MASK;
9758 safe_terminal_coding.src_multibyte = 1;
9759 safe_terminal_coding.dst_multibyte = 0;
9760 return Qnil;
9763 DEFUN ("terminal-coding-system", Fterminal_coding_system,
9764 Sterminal_coding_system, 0, 1, 0,
9765 doc: /* Return coding system specified for terminal output on the given terminal.
9766 TERMINAL may be a terminal object, a frame, or nil for the selected
9767 frame's terminal device. */)
9768 (Lisp_Object terminal)
9770 struct coding_system *terminal_coding
9771 = TERMINAL_TERMINAL_CODING (decode_live_terminal (terminal));
9772 Lisp_Object coding_system = CODING_ID_NAME (terminal_coding->id);
9774 /* For backward compatibility, return nil if it is `undecided'. */
9775 return (! EQ (coding_system, Qundecided) ? coding_system : Qnil);
9778 DEFUN ("set-keyboard-coding-system-internal", Fset_keyboard_coding_system_internal,
9779 Sset_keyboard_coding_system_internal, 1, 2, 0,
9780 doc: /* Internal use only. */)
9781 (Lisp_Object coding_system, Lisp_Object terminal)
9783 struct terminal *t = decode_live_terminal (terminal);
9784 CHECK_SYMBOL (coding_system);
9785 if (NILP (coding_system))
9786 coding_system = Qno_conversion;
9787 else
9788 Fcheck_coding_system (coding_system);
9789 setup_coding_system (coding_system, TERMINAL_KEYBOARD_CODING (t));
9790 /* Character composition should be disabled. */
9791 TERMINAL_KEYBOARD_CODING (t)->common_flags
9792 &= ~CODING_ANNOTATE_COMPOSITION_MASK;
9793 return Qnil;
9796 DEFUN ("keyboard-coding-system",
9797 Fkeyboard_coding_system, Skeyboard_coding_system, 0, 1, 0,
9798 doc: /* Return coding system specified for decoding keyboard input. */)
9799 (Lisp_Object terminal)
9801 return CODING_ID_NAME (TERMINAL_KEYBOARD_CODING
9802 (decode_live_terminal (terminal))->id);
9806 DEFUN ("find-operation-coding-system", Ffind_operation_coding_system,
9807 Sfind_operation_coding_system, 1, MANY, 0,
9808 doc: /* Choose a coding system for an operation based on the target name.
9809 The value names a pair of coding systems: (DECODING-SYSTEM . ENCODING-SYSTEM).
9810 DECODING-SYSTEM is the coding system to use for decoding
9811 \(in case OPERATION does decoding), and ENCODING-SYSTEM is the coding system
9812 for encoding (in case OPERATION does encoding).
9814 The first argument OPERATION specifies an I/O primitive:
9815 For file I/O, `insert-file-contents' or `write-region'.
9816 For process I/O, `call-process', `call-process-region', or `start-process'.
9817 For network I/O, `open-network-stream'.
9819 The remaining arguments should be the same arguments that were passed
9820 to the primitive. Depending on which primitive, one of those arguments
9821 is selected as the TARGET. For example, if OPERATION does file I/O,
9822 whichever argument specifies the file name is TARGET.
9824 TARGET has a meaning which depends on OPERATION:
9825 For file I/O, TARGET is a file name (except for the special case below).
9826 For process I/O, TARGET is a process name.
9827 For network I/O, TARGET is a service name or a port number.
9829 This function looks up what is specified for TARGET in
9830 `file-coding-system-alist', `process-coding-system-alist',
9831 or `network-coding-system-alist' depending on OPERATION.
9832 They may specify a coding system, a cons of coding systems,
9833 or a function symbol to call.
9834 In the last case, we call the function with one argument,
9835 which is a list of all the arguments given to this function.
9836 If the function can't decide a coding system, it can return
9837 `undecided' so that the normal code-detection is performed.
9839 If OPERATION is `insert-file-contents', the argument corresponding to
9840 TARGET may be a cons (FILENAME . BUFFER). In that case, FILENAME is a
9841 file name to look up, and BUFFER is a buffer that contains the file's
9842 contents (not yet decoded). If `file-coding-system-alist' specifies a
9843 function to call for FILENAME, that function should examine the
9844 contents of BUFFER instead of reading the file.
9846 usage: (find-operation-coding-system OPERATION ARGUMENTS...) */)
9847 (ptrdiff_t nargs, Lisp_Object *args)
9849 Lisp_Object operation, target_idx, target, val;
9850 register Lisp_Object chain;
9852 if (nargs < 2)
9853 error ("Too few arguments");
9854 operation = args[0];
9855 if (!SYMBOLP (operation)
9856 || (target_idx = Fget (operation, Qtarget_idx), !NATNUMP (target_idx)))
9857 error ("Invalid first argument");
9858 if (nargs <= 1 + XFASTINT (target_idx))
9859 error ("Too few arguments for operation `%s'",
9860 SDATA (SYMBOL_NAME (operation)));
9861 target = args[XFASTINT (target_idx) + 1];
9862 if (!(STRINGP (target)
9863 || (EQ (operation, Qinsert_file_contents) && CONSP (target)
9864 && STRINGP (XCAR (target)) && BUFFERP (XCDR (target)))
9865 || (EQ (operation, Qopen_network_stream)
9866 && (INTEGERP (target) || EQ (target, Qt)))))
9867 error ("Invalid argument %"pI"d of operation `%s'",
9868 XFASTINT (target_idx) + 1, SDATA (SYMBOL_NAME (operation)));
9869 if (CONSP (target))
9870 target = XCAR (target);
9872 chain = ((EQ (operation, Qinsert_file_contents)
9873 || EQ (operation, Qwrite_region))
9874 ? Vfile_coding_system_alist
9875 : (EQ (operation, Qopen_network_stream)
9876 ? Vnetwork_coding_system_alist
9877 : Vprocess_coding_system_alist));
9878 if (NILP (chain))
9879 return Qnil;
9881 for (; CONSP (chain); chain = XCDR (chain))
9883 Lisp_Object elt;
9885 elt = XCAR (chain);
9886 if (CONSP (elt)
9887 && ((STRINGP (target)
9888 && STRINGP (XCAR (elt))
9889 && fast_string_match (XCAR (elt), target) >= 0)
9890 || (INTEGERP (target) && EQ (target, XCAR (elt)))))
9892 val = XCDR (elt);
9893 /* Here, if VAL is both a valid coding system and a valid
9894 function symbol, we return VAL as a coding system. */
9895 if (CONSP (val))
9896 return val;
9897 if (! SYMBOLP (val))
9898 return Qnil;
9899 if (! NILP (Fcoding_system_p (val)))
9900 return Fcons (val, val);
9901 if (! NILP (Ffboundp (val)))
9903 /* We use call1 rather than safe_call1
9904 so as to get bug reports about functions called here
9905 which don't handle the current interface. */
9906 val = call1 (val, Flist (nargs, args));
9907 if (CONSP (val))
9908 return val;
9909 if (SYMBOLP (val) && ! NILP (Fcoding_system_p (val)))
9910 return Fcons (val, val);
9912 return Qnil;
9915 return Qnil;
9918 DEFUN ("set-coding-system-priority", Fset_coding_system_priority,
9919 Sset_coding_system_priority, 0, MANY, 0,
9920 doc: /* Assign higher priority to the coding systems given as arguments.
9921 If multiple coding systems belong to the same category,
9922 all but the first one are ignored.
9924 usage: (set-coding-system-priority &rest coding-systems) */)
9925 (ptrdiff_t nargs, Lisp_Object *args)
9927 ptrdiff_t i, j;
9928 bool changed[coding_category_max];
9929 enum coding_category priorities[coding_category_max];
9931 memset (changed, 0, sizeof changed);
9933 for (i = j = 0; i < nargs; i++)
9935 enum coding_category category;
9936 Lisp_Object spec, attrs;
9938 CHECK_CODING_SYSTEM_GET_SPEC (args[i], spec);
9939 attrs = AREF (spec, 0);
9940 category = XINT (CODING_ATTR_CATEGORY (attrs));
9941 if (changed[category])
9942 /* Ignore this coding system because a coding system of the
9943 same category already had a higher priority. */
9944 continue;
9945 changed[category] = 1;
9946 priorities[j++] = category;
9947 if (coding_categories[category].id >= 0
9948 && ! EQ (args[i], CODING_ID_NAME (coding_categories[category].id)))
9949 setup_coding_system (args[i], &coding_categories[category]);
9950 Fset (AREF (Vcoding_category_table, category), args[i]);
9953 /* Now we have decided top J priorities. Reflect the order of the
9954 original priorities to the remaining priorities. */
9956 for (i = j, j = 0; i < coding_category_max; i++, j++)
9958 while (j < coding_category_max
9959 && changed[coding_priorities[j]])
9960 j++;
9961 if (j == coding_category_max)
9962 emacs_abort ();
9963 priorities[i] = coding_priorities[j];
9966 memcpy (coding_priorities, priorities, sizeof priorities);
9968 /* Update `coding-category-list'. */
9969 Vcoding_category_list = Qnil;
9970 for (i = coding_category_max; i-- > 0; )
9971 Vcoding_category_list
9972 = Fcons (AREF (Vcoding_category_table, priorities[i]),
9973 Vcoding_category_list);
9975 return Qnil;
9978 DEFUN ("coding-system-priority-list", Fcoding_system_priority_list,
9979 Scoding_system_priority_list, 0, 1, 0,
9980 doc: /* Return a list of coding systems ordered by their priorities.
9981 The list contains a subset of coding systems; i.e. coding systems
9982 assigned to each coding category (see `coding-category-list').
9984 HIGHESTP non-nil means just return the highest priority one. */)
9985 (Lisp_Object highestp)
9987 int i;
9988 Lisp_Object val;
9990 for (i = 0, val = Qnil; i < coding_category_max; i++)
9992 enum coding_category category = coding_priorities[i];
9993 int id = coding_categories[category].id;
9994 Lisp_Object attrs;
9996 if (id < 0)
9997 continue;
9998 attrs = CODING_ID_ATTRS (id);
9999 if (! NILP (highestp))
10000 return CODING_ATTR_BASE_NAME (attrs);
10001 val = Fcons (CODING_ATTR_BASE_NAME (attrs), val);
10003 return Fnreverse (val);
10006 static const char *const suffixes[] = { "-unix", "-dos", "-mac" };
10008 static Lisp_Object
10009 make_subsidiaries (Lisp_Object base)
10011 Lisp_Object subsidiaries;
10012 ptrdiff_t base_name_len = SBYTES (SYMBOL_NAME (base));
10013 USE_SAFE_ALLOCA;
10014 char *buf = SAFE_ALLOCA (base_name_len + 6);
10015 int i;
10017 memcpy (buf, SDATA (SYMBOL_NAME (base)), base_name_len);
10018 subsidiaries = make_uninit_vector (3);
10019 for (i = 0; i < 3; i++)
10021 strcpy (buf + base_name_len, suffixes[i]);
10022 ASET (subsidiaries, i, intern (buf));
10024 SAFE_FREE ();
10025 return subsidiaries;
10029 DEFUN ("define-coding-system-internal", Fdefine_coding_system_internal,
10030 Sdefine_coding_system_internal, coding_arg_max, MANY, 0,
10031 doc: /* For internal use only.
10032 usage: (define-coding-system-internal ...) */)
10033 (ptrdiff_t nargs, Lisp_Object *args)
10035 Lisp_Object name;
10036 Lisp_Object spec_vec; /* [ ATTRS ALIASE EOL_TYPE ] */
10037 Lisp_Object attrs; /* Vector of attributes. */
10038 Lisp_Object eol_type;
10039 Lisp_Object aliases;
10040 Lisp_Object coding_type, charset_list, safe_charsets;
10041 enum coding_category category;
10042 Lisp_Object tail, val;
10043 int max_charset_id = 0;
10044 int i;
10046 if (nargs < coding_arg_max)
10047 goto short_args;
10049 attrs = Fmake_vector (make_number (coding_attr_last_index), Qnil);
10051 name = args[coding_arg_name];
10052 CHECK_SYMBOL (name);
10053 ASET (attrs, coding_attr_base_name, name);
10055 val = args[coding_arg_mnemonic];
10056 if (! STRINGP (val))
10057 CHECK_CHARACTER (val);
10058 ASET (attrs, coding_attr_mnemonic, val);
10060 coding_type = args[coding_arg_coding_type];
10061 CHECK_SYMBOL (coding_type);
10062 ASET (attrs, coding_attr_type, coding_type);
10064 charset_list = args[coding_arg_charset_list];
10065 if (SYMBOLP (charset_list))
10067 if (EQ (charset_list, Qiso_2022))
10069 if (! EQ (coding_type, Qiso_2022))
10070 error ("Invalid charset-list");
10071 charset_list = Viso_2022_charset_list;
10073 else if (EQ (charset_list, Qemacs_mule))
10075 if (! EQ (coding_type, Qemacs_mule))
10076 error ("Invalid charset-list");
10077 charset_list = Vemacs_mule_charset_list;
10079 for (tail = charset_list; CONSP (tail); tail = XCDR (tail))
10081 if (! RANGED_INTEGERP (0, XCAR (tail), INT_MAX - 1))
10082 error ("Invalid charset-list");
10083 if (max_charset_id < XFASTINT (XCAR (tail)))
10084 max_charset_id = XFASTINT (XCAR (tail));
10087 else
10089 charset_list = Fcopy_sequence (charset_list);
10090 for (tail = charset_list; CONSP (tail); tail = XCDR (tail))
10092 struct charset *charset;
10094 val = XCAR (tail);
10095 CHECK_CHARSET_GET_CHARSET (val, charset);
10096 if (EQ (coding_type, Qiso_2022)
10097 ? CHARSET_ISO_FINAL (charset) < 0
10098 : EQ (coding_type, Qemacs_mule)
10099 ? CHARSET_EMACS_MULE_ID (charset) < 0
10100 : 0)
10101 error ("Can't handle charset `%s'",
10102 SDATA (SYMBOL_NAME (CHARSET_NAME (charset))));
10104 XSETCAR (tail, make_number (charset->id));
10105 if (max_charset_id < charset->id)
10106 max_charset_id = charset->id;
10109 ASET (attrs, coding_attr_charset_list, charset_list);
10111 safe_charsets = make_uninit_string (max_charset_id + 1);
10112 memset (SDATA (safe_charsets), 255, max_charset_id + 1);
10113 for (tail = charset_list; CONSP (tail); tail = XCDR (tail))
10114 SSET (safe_charsets, XFASTINT (XCAR (tail)), 0);
10115 ASET (attrs, coding_attr_safe_charsets, safe_charsets);
10117 ASET (attrs, coding_attr_ascii_compat, args[coding_arg_ascii_compatible_p]);
10119 val = args[coding_arg_decode_translation_table];
10120 if (! CHAR_TABLE_P (val) && ! CONSP (val))
10121 CHECK_SYMBOL (val);
10122 ASET (attrs, coding_attr_decode_tbl, val);
10124 val = args[coding_arg_encode_translation_table];
10125 if (! CHAR_TABLE_P (val) && ! CONSP (val))
10126 CHECK_SYMBOL (val);
10127 ASET (attrs, coding_attr_encode_tbl, val);
10129 val = args[coding_arg_post_read_conversion];
10130 CHECK_SYMBOL (val);
10131 ASET (attrs, coding_attr_post_read, val);
10133 val = args[coding_arg_pre_write_conversion];
10134 CHECK_SYMBOL (val);
10135 ASET (attrs, coding_attr_pre_write, val);
10137 val = args[coding_arg_default_char];
10138 if (NILP (val))
10139 ASET (attrs, coding_attr_default_char, make_number (' '));
10140 else
10142 CHECK_CHARACTER (val);
10143 ASET (attrs, coding_attr_default_char, val);
10146 val = args[coding_arg_for_unibyte];
10147 ASET (attrs, coding_attr_for_unibyte, NILP (val) ? Qnil : Qt);
10149 val = args[coding_arg_plist];
10150 CHECK_LIST (val);
10151 ASET (attrs, coding_attr_plist, val);
10153 if (EQ (coding_type, Qcharset))
10155 /* Generate a lisp vector of 256 elements. Each element is nil,
10156 integer, or a list of charset IDs.
10158 If Nth element is nil, the byte code N is invalid in this
10159 coding system.
10161 If Nth element is a number NUM, N is the first byte of a
10162 charset whose ID is NUM.
10164 If Nth element is a list of charset IDs, N is the first byte
10165 of one of them. The list is sorted by dimensions of the
10166 charsets. A charset of smaller dimension comes first. */
10167 val = Fmake_vector (make_number (256), Qnil);
10169 for (tail = charset_list; CONSP (tail); tail = XCDR (tail))
10171 struct charset *charset = CHARSET_FROM_ID (XFASTINT (XCAR (tail)));
10172 int dim = CHARSET_DIMENSION (charset);
10173 int idx = (dim - 1) * 4;
10175 if (CHARSET_ASCII_COMPATIBLE_P (charset))
10176 ASET (attrs, coding_attr_ascii_compat, Qt);
10178 for (i = charset->code_space[idx];
10179 i <= charset->code_space[idx + 1]; i++)
10181 Lisp_Object tmp, tmp2;
10182 int dim2;
10184 tmp = AREF (val, i);
10185 if (NILP (tmp))
10186 tmp = XCAR (tail);
10187 else if (NUMBERP (tmp))
10189 dim2 = CHARSET_DIMENSION (CHARSET_FROM_ID (XFASTINT (tmp)));
10190 if (dim < dim2)
10191 tmp = list2 (XCAR (tail), tmp);
10192 else
10193 tmp = list2 (tmp, XCAR (tail));
10195 else
10197 for (tmp2 = tmp; CONSP (tmp2); tmp2 = XCDR (tmp2))
10199 dim2 = CHARSET_DIMENSION (CHARSET_FROM_ID (XFASTINT (XCAR (tmp2))));
10200 if (dim < dim2)
10201 break;
10203 if (NILP (tmp2))
10204 tmp = nconc2 (tmp, list1 (XCAR (tail)));
10205 else
10207 XSETCDR (tmp2, Fcons (XCAR (tmp2), XCDR (tmp2)));
10208 XSETCAR (tmp2, XCAR (tail));
10211 ASET (val, i, tmp);
10214 ASET (attrs, coding_attr_charset_valids, val);
10215 category = coding_category_charset;
10217 else if (EQ (coding_type, Qccl))
10219 Lisp_Object valids;
10221 if (nargs < coding_arg_ccl_max)
10222 goto short_args;
10224 val = args[coding_arg_ccl_decoder];
10225 CHECK_CCL_PROGRAM (val);
10226 if (VECTORP (val))
10227 val = Fcopy_sequence (val);
10228 ASET (attrs, coding_attr_ccl_decoder, val);
10230 val = args[coding_arg_ccl_encoder];
10231 CHECK_CCL_PROGRAM (val);
10232 if (VECTORP (val))
10233 val = Fcopy_sequence (val);
10234 ASET (attrs, coding_attr_ccl_encoder, val);
10236 val = args[coding_arg_ccl_valids];
10237 valids = Fmake_string (make_number (256), make_number (0));
10238 for (tail = val; CONSP (tail); tail = XCDR (tail))
10240 int from, to;
10242 val = XCAR (tail);
10243 if (INTEGERP (val))
10245 if (! (0 <= XINT (val) && XINT (val) <= 255))
10246 args_out_of_range_3 (val, make_number (0), make_number (255));
10247 from = to = XINT (val);
10249 else
10251 CHECK_CONS (val);
10252 CHECK_NATNUM_CAR (val);
10253 CHECK_NUMBER_CDR (val);
10254 if (XINT (XCAR (val)) > 255)
10255 args_out_of_range_3 (XCAR (val),
10256 make_number (0), make_number (255));
10257 from = XINT (XCAR (val));
10258 if (! (from <= XINT (XCDR (val)) && XINT (XCDR (val)) <= 255))
10259 args_out_of_range_3 (XCDR (val),
10260 XCAR (val), make_number (255));
10261 to = XINT (XCDR (val));
10263 for (i = from; i <= to; i++)
10264 SSET (valids, i, 1);
10266 ASET (attrs, coding_attr_ccl_valids, valids);
10268 category = coding_category_ccl;
10270 else if (EQ (coding_type, Qutf_16))
10272 Lisp_Object bom, endian;
10274 ASET (attrs, coding_attr_ascii_compat, Qnil);
10276 if (nargs < coding_arg_utf16_max)
10277 goto short_args;
10279 bom = args[coding_arg_utf16_bom];
10280 if (! NILP (bom) && ! EQ (bom, Qt))
10282 CHECK_CONS (bom);
10283 val = XCAR (bom);
10284 CHECK_CODING_SYSTEM (val);
10285 val = XCDR (bom);
10286 CHECK_CODING_SYSTEM (val);
10288 ASET (attrs, coding_attr_utf_bom, bom);
10290 endian = args[coding_arg_utf16_endian];
10291 CHECK_SYMBOL (endian);
10292 if (NILP (endian))
10293 endian = Qbig;
10294 else if (! EQ (endian, Qbig) && ! EQ (endian, Qlittle))
10295 error ("Invalid endian: %s", SDATA (SYMBOL_NAME (endian)));
10296 ASET (attrs, coding_attr_utf_16_endian, endian);
10298 category = (CONSP (bom)
10299 ? coding_category_utf_16_auto
10300 : NILP (bom)
10301 ? (EQ (endian, Qbig)
10302 ? coding_category_utf_16_be_nosig
10303 : coding_category_utf_16_le_nosig)
10304 : (EQ (endian, Qbig)
10305 ? coding_category_utf_16_be
10306 : coding_category_utf_16_le));
10308 else if (EQ (coding_type, Qiso_2022))
10310 Lisp_Object initial, reg_usage, request, flags;
10312 if (nargs < coding_arg_iso2022_max)
10313 goto short_args;
10315 initial = Fcopy_sequence (args[coding_arg_iso2022_initial]);
10316 CHECK_VECTOR (initial);
10317 for (i = 0; i < 4; i++)
10319 val = AREF (initial, i);
10320 if (! NILP (val))
10322 struct charset *charset;
10324 CHECK_CHARSET_GET_CHARSET (val, charset);
10325 ASET (initial, i, make_number (CHARSET_ID (charset)));
10326 if (i == 0 && CHARSET_ASCII_COMPATIBLE_P (charset))
10327 ASET (attrs, coding_attr_ascii_compat, Qt);
10329 else
10330 ASET (initial, i, make_number (-1));
10333 reg_usage = args[coding_arg_iso2022_reg_usage];
10334 CHECK_CONS (reg_usage);
10335 CHECK_NUMBER_CAR (reg_usage);
10336 CHECK_NUMBER_CDR (reg_usage);
10338 request = Fcopy_sequence (args[coding_arg_iso2022_request]);
10339 for (tail = request; CONSP (tail); tail = XCDR (tail))
10341 int id;
10342 Lisp_Object tmp1;
10344 val = XCAR (tail);
10345 CHECK_CONS (val);
10346 tmp1 = XCAR (val);
10347 CHECK_CHARSET_GET_ID (tmp1, id);
10348 CHECK_NATNUM_CDR (val);
10349 if (XINT (XCDR (val)) >= 4)
10350 error ("Invalid graphic register number: %"pI"d", XINT (XCDR (val)));
10351 XSETCAR (val, make_number (id));
10354 flags = args[coding_arg_iso2022_flags];
10355 CHECK_NATNUM (flags);
10356 i = XINT (flags) & INT_MAX;
10357 if (EQ (args[coding_arg_charset_list], Qiso_2022))
10358 i |= CODING_ISO_FLAG_FULL_SUPPORT;
10359 flags = make_number (i);
10361 ASET (attrs, coding_attr_iso_initial, initial);
10362 ASET (attrs, coding_attr_iso_usage, reg_usage);
10363 ASET (attrs, coding_attr_iso_request, request);
10364 ASET (attrs, coding_attr_iso_flags, flags);
10365 setup_iso_safe_charsets (attrs);
10367 if (i & CODING_ISO_FLAG_SEVEN_BITS)
10368 category = ((i & (CODING_ISO_FLAG_LOCKING_SHIFT
10369 | CODING_ISO_FLAG_SINGLE_SHIFT))
10370 ? coding_category_iso_7_else
10371 : EQ (args[coding_arg_charset_list], Qiso_2022)
10372 ? coding_category_iso_7
10373 : coding_category_iso_7_tight);
10374 else
10376 int id = XINT (AREF (initial, 1));
10378 category = (((i & CODING_ISO_FLAG_LOCKING_SHIFT)
10379 || EQ (args[coding_arg_charset_list], Qiso_2022)
10380 || id < 0)
10381 ? coding_category_iso_8_else
10382 : (CHARSET_DIMENSION (CHARSET_FROM_ID (id)) == 1)
10383 ? coding_category_iso_8_1
10384 : coding_category_iso_8_2);
10386 if (category != coding_category_iso_8_1
10387 && category != coding_category_iso_8_2)
10388 ASET (attrs, coding_attr_ascii_compat, Qnil);
10390 else if (EQ (coding_type, Qemacs_mule))
10392 if (EQ (args[coding_arg_charset_list], Qemacs_mule))
10393 ASET (attrs, coding_attr_emacs_mule_full, Qt);
10394 ASET (attrs, coding_attr_ascii_compat, Qt);
10395 category = coding_category_emacs_mule;
10397 else if (EQ (coding_type, Qshift_jis))
10400 struct charset *charset;
10402 if (XINT (Flength (charset_list)) != 3
10403 && XINT (Flength (charset_list)) != 4)
10404 error ("There should be three or four charsets");
10406 charset = CHARSET_FROM_ID (XINT (XCAR (charset_list)));
10407 if (CHARSET_DIMENSION (charset) != 1)
10408 error ("Dimension of charset %s is not one",
10409 SDATA (SYMBOL_NAME (CHARSET_NAME (charset))));
10410 if (CHARSET_ASCII_COMPATIBLE_P (charset))
10411 ASET (attrs, coding_attr_ascii_compat, Qt);
10413 charset_list = XCDR (charset_list);
10414 charset = CHARSET_FROM_ID (XINT (XCAR (charset_list)));
10415 if (CHARSET_DIMENSION (charset) != 1)
10416 error ("Dimension of charset %s is not one",
10417 SDATA (SYMBOL_NAME (CHARSET_NAME (charset))));
10419 charset_list = XCDR (charset_list);
10420 charset = CHARSET_FROM_ID (XINT (XCAR (charset_list)));
10421 if (CHARSET_DIMENSION (charset) != 2)
10422 error ("Dimension of charset %s is not two",
10423 SDATA (SYMBOL_NAME (CHARSET_NAME (charset))));
10425 charset_list = XCDR (charset_list);
10426 if (! NILP (charset_list))
10428 charset = CHARSET_FROM_ID (XINT (XCAR (charset_list)));
10429 if (CHARSET_DIMENSION (charset) != 2)
10430 error ("Dimension of charset %s is not two",
10431 SDATA (SYMBOL_NAME (CHARSET_NAME (charset))));
10434 category = coding_category_sjis;
10435 Vsjis_coding_system = name;
10437 else if (EQ (coding_type, Qbig5))
10439 struct charset *charset;
10441 if (XINT (Flength (charset_list)) != 2)
10442 error ("There should be just two charsets");
10444 charset = CHARSET_FROM_ID (XINT (XCAR (charset_list)));
10445 if (CHARSET_DIMENSION (charset) != 1)
10446 error ("Dimension of charset %s is not one",
10447 SDATA (SYMBOL_NAME (CHARSET_NAME (charset))));
10448 if (CHARSET_ASCII_COMPATIBLE_P (charset))
10449 ASET (attrs, coding_attr_ascii_compat, Qt);
10451 charset_list = XCDR (charset_list);
10452 charset = CHARSET_FROM_ID (XINT (XCAR (charset_list)));
10453 if (CHARSET_DIMENSION (charset) != 2)
10454 error ("Dimension of charset %s is not two",
10455 SDATA (SYMBOL_NAME (CHARSET_NAME (charset))));
10457 category = coding_category_big5;
10458 Vbig5_coding_system = name;
10460 else if (EQ (coding_type, Qraw_text))
10462 category = coding_category_raw_text;
10463 ASET (attrs, coding_attr_ascii_compat, Qt);
10465 else if (EQ (coding_type, Qutf_8))
10467 Lisp_Object bom;
10469 if (nargs < coding_arg_utf8_max)
10470 goto short_args;
10472 bom = args[coding_arg_utf8_bom];
10473 if (! NILP (bom) && ! EQ (bom, Qt))
10475 CHECK_CONS (bom);
10476 val = XCAR (bom);
10477 CHECK_CODING_SYSTEM (val);
10478 val = XCDR (bom);
10479 CHECK_CODING_SYSTEM (val);
10481 ASET (attrs, coding_attr_utf_bom, bom);
10482 if (NILP (bom))
10483 ASET (attrs, coding_attr_ascii_compat, Qt);
10485 category = (CONSP (bom) ? coding_category_utf_8_auto
10486 : NILP (bom) ? coding_category_utf_8_nosig
10487 : coding_category_utf_8_sig);
10489 else if (EQ (coding_type, Qundecided))
10491 if (nargs < coding_arg_undecided_max)
10492 goto short_args;
10493 ASET (attrs, coding_attr_undecided_inhibit_null_byte_detection,
10494 args[coding_arg_undecided_inhibit_null_byte_detection]);
10495 ASET (attrs, coding_attr_undecided_inhibit_iso_escape_detection,
10496 args[coding_arg_undecided_inhibit_iso_escape_detection]);
10497 ASET (attrs, coding_attr_undecided_prefer_utf_8,
10498 args[coding_arg_undecided_prefer_utf_8]);
10499 category = coding_category_undecided;
10501 else
10502 error ("Invalid coding system type: %s",
10503 SDATA (SYMBOL_NAME (coding_type)));
10505 ASET (attrs, coding_attr_category, make_number (category));
10506 ASET (attrs, coding_attr_plist,
10507 Fcons (QCcategory,
10508 Fcons (AREF (Vcoding_category_table, category),
10509 CODING_ATTR_PLIST (attrs))));
10510 ASET (attrs, coding_attr_plist,
10511 Fcons (QCascii_compatible_p,
10512 Fcons (CODING_ATTR_ASCII_COMPAT (attrs),
10513 CODING_ATTR_PLIST (attrs))));
10515 eol_type = args[coding_arg_eol_type];
10516 if (! NILP (eol_type)
10517 && ! EQ (eol_type, Qunix)
10518 && ! EQ (eol_type, Qdos)
10519 && ! EQ (eol_type, Qmac))
10520 error ("Invalid eol-type");
10522 aliases = list1 (name);
10524 if (NILP (eol_type))
10526 eol_type = make_subsidiaries (name);
10527 for (i = 0; i < 3; i++)
10529 Lisp_Object this_spec, this_name, this_aliases, this_eol_type;
10531 this_name = AREF (eol_type, i);
10532 this_aliases = list1 (this_name);
10533 this_eol_type = (i == 0 ? Qunix : i == 1 ? Qdos : Qmac);
10534 this_spec = make_uninit_vector (3);
10535 ASET (this_spec, 0, attrs);
10536 ASET (this_spec, 1, this_aliases);
10537 ASET (this_spec, 2, this_eol_type);
10538 Fputhash (this_name, this_spec, Vcoding_system_hash_table);
10539 Vcoding_system_list = Fcons (this_name, Vcoding_system_list);
10540 val = Fassoc (Fsymbol_name (this_name), Vcoding_system_alist);
10541 if (NILP (val))
10542 Vcoding_system_alist
10543 = Fcons (Fcons (Fsymbol_name (this_name), Qnil),
10544 Vcoding_system_alist);
10548 spec_vec = make_uninit_vector (3);
10549 ASET (spec_vec, 0, attrs);
10550 ASET (spec_vec, 1, aliases);
10551 ASET (spec_vec, 2, eol_type);
10553 Fputhash (name, spec_vec, Vcoding_system_hash_table);
10554 Vcoding_system_list = Fcons (name, Vcoding_system_list);
10555 val = Fassoc (Fsymbol_name (name), Vcoding_system_alist);
10556 if (NILP (val))
10557 Vcoding_system_alist = Fcons (Fcons (Fsymbol_name (name), Qnil),
10558 Vcoding_system_alist);
10561 int id = coding_categories[category].id;
10563 if (id < 0 || EQ (name, CODING_ID_NAME (id)))
10564 setup_coding_system (name, &coding_categories[category]);
10567 return Qnil;
10569 short_args:
10570 Fsignal (Qwrong_number_of_arguments,
10571 Fcons (intern ("define-coding-system-internal"),
10572 make_number (nargs)));
10576 DEFUN ("coding-system-put", Fcoding_system_put, Scoding_system_put,
10577 3, 3, 0,
10578 doc: /* Change value in CODING-SYSTEM's property list PROP to VAL. */)
10579 (Lisp_Object coding_system, Lisp_Object prop, Lisp_Object val)
10581 Lisp_Object spec, attrs;
10583 CHECK_CODING_SYSTEM_GET_SPEC (coding_system, spec);
10584 attrs = AREF (spec, 0);
10585 if (EQ (prop, QCmnemonic))
10587 if (! STRINGP (val))
10588 CHECK_CHARACTER (val);
10589 ASET (attrs, coding_attr_mnemonic, val);
10591 else if (EQ (prop, QCdefault_char))
10593 if (NILP (val))
10594 val = make_number (' ');
10595 else
10596 CHECK_CHARACTER (val);
10597 ASET (attrs, coding_attr_default_char, val);
10599 else if (EQ (prop, QCdecode_translation_table))
10601 if (! CHAR_TABLE_P (val) && ! CONSP (val))
10602 CHECK_SYMBOL (val);
10603 ASET (attrs, coding_attr_decode_tbl, val);
10605 else if (EQ (prop, QCencode_translation_table))
10607 if (! CHAR_TABLE_P (val) && ! CONSP (val))
10608 CHECK_SYMBOL (val);
10609 ASET (attrs, coding_attr_encode_tbl, val);
10611 else if (EQ (prop, QCpost_read_conversion))
10613 CHECK_SYMBOL (val);
10614 ASET (attrs, coding_attr_post_read, val);
10616 else if (EQ (prop, QCpre_write_conversion))
10618 CHECK_SYMBOL (val);
10619 ASET (attrs, coding_attr_pre_write, val);
10621 else if (EQ (prop, QCascii_compatible_p))
10623 ASET (attrs, coding_attr_ascii_compat, val);
10626 ASET (attrs, coding_attr_plist,
10627 Fplist_put (CODING_ATTR_PLIST (attrs), prop, val));
10628 return val;
10632 DEFUN ("define-coding-system-alias", Fdefine_coding_system_alias,
10633 Sdefine_coding_system_alias, 2, 2, 0,
10634 doc: /* Define ALIAS as an alias for CODING-SYSTEM. */)
10635 (Lisp_Object alias, Lisp_Object coding_system)
10637 Lisp_Object spec, aliases, eol_type, val;
10639 CHECK_SYMBOL (alias);
10640 CHECK_CODING_SYSTEM_GET_SPEC (coding_system, spec);
10641 aliases = AREF (spec, 1);
10642 /* ALIASES should be a list of length more than zero, and the first
10643 element is a base coding system. Append ALIAS at the tail of the
10644 list. */
10645 while (!NILP (XCDR (aliases)))
10646 aliases = XCDR (aliases);
10647 XSETCDR (aliases, list1 (alias));
10649 eol_type = AREF (spec, 2);
10650 if (VECTORP (eol_type))
10652 Lisp_Object subsidiaries;
10653 int i;
10655 subsidiaries = make_subsidiaries (alias);
10656 for (i = 0; i < 3; i++)
10657 Fdefine_coding_system_alias (AREF (subsidiaries, i),
10658 AREF (eol_type, i));
10661 Fputhash (alias, spec, Vcoding_system_hash_table);
10662 Vcoding_system_list = Fcons (alias, Vcoding_system_list);
10663 val = Fassoc (Fsymbol_name (alias), Vcoding_system_alist);
10664 if (NILP (val))
10665 Vcoding_system_alist = Fcons (Fcons (Fsymbol_name (alias), Qnil),
10666 Vcoding_system_alist);
10668 return Qnil;
10671 DEFUN ("coding-system-base", Fcoding_system_base, Scoding_system_base,
10672 1, 1, 0,
10673 doc: /* Return the base of CODING-SYSTEM.
10674 Any alias or subsidiary coding system is not a base coding system. */)
10675 (Lisp_Object coding_system)
10677 Lisp_Object spec, attrs;
10679 if (NILP (coding_system))
10680 return (Qno_conversion);
10681 CHECK_CODING_SYSTEM_GET_SPEC (coding_system, spec);
10682 attrs = AREF (spec, 0);
10683 return CODING_ATTR_BASE_NAME (attrs);
10686 DEFUN ("coding-system-plist", Fcoding_system_plist, Scoding_system_plist,
10687 1, 1, 0,
10688 doc: /* Return the property list of CODING-SYSTEM. */)
10689 (Lisp_Object coding_system)
10691 Lisp_Object spec, attrs;
10693 if (NILP (coding_system))
10694 coding_system = Qno_conversion;
10695 CHECK_CODING_SYSTEM_GET_SPEC (coding_system, spec);
10696 attrs = AREF (spec, 0);
10697 return CODING_ATTR_PLIST (attrs);
10701 DEFUN ("coding-system-aliases", Fcoding_system_aliases, Scoding_system_aliases,
10702 1, 1, 0,
10703 doc: /* Return the list of aliases of CODING-SYSTEM. */)
10704 (Lisp_Object coding_system)
10706 Lisp_Object spec;
10708 if (NILP (coding_system))
10709 coding_system = Qno_conversion;
10710 CHECK_CODING_SYSTEM_GET_SPEC (coding_system, spec);
10711 return AREF (spec, 1);
10714 DEFUN ("coding-system-eol-type", Fcoding_system_eol_type,
10715 Scoding_system_eol_type, 1, 1, 0,
10716 doc: /* Return eol-type of CODING-SYSTEM.
10717 An eol-type is an integer 0, 1, 2, or a vector of coding systems.
10719 Integer values 0, 1, and 2 indicate a format of end-of-line; LF, CRLF,
10720 and CR respectively.
10722 A vector value indicates that a format of end-of-line should be
10723 detected automatically. Nth element of the vector is the subsidiary
10724 coding system whose eol-type is N. */)
10725 (Lisp_Object coding_system)
10727 Lisp_Object spec, eol_type;
10728 int n;
10730 if (NILP (coding_system))
10731 coding_system = Qno_conversion;
10732 if (! CODING_SYSTEM_P (coding_system))
10733 return Qnil;
10734 spec = CODING_SYSTEM_SPEC (coding_system);
10735 eol_type = AREF (spec, 2);
10736 if (VECTORP (eol_type))
10737 return Fcopy_sequence (eol_type);
10738 n = EQ (eol_type, Qunix) ? 0 : EQ (eol_type, Qdos) ? 1 : 2;
10739 return make_number (n);
10742 #endif /* emacs */
10745 /*** 9. Post-amble ***/
10747 void
10748 init_coding_once (void)
10750 int i;
10752 for (i = 0; i < coding_category_max; i++)
10754 coding_categories[i].id = -1;
10755 coding_priorities[i] = i;
10758 /* ISO2022 specific initialize routine. */
10759 for (i = 0; i < 0x20; i++)
10760 iso_code_class[i] = ISO_control_0;
10761 for (i = 0x21; i < 0x7F; i++)
10762 iso_code_class[i] = ISO_graphic_plane_0;
10763 for (i = 0x80; i < 0xA0; i++)
10764 iso_code_class[i] = ISO_control_1;
10765 for (i = 0xA1; i < 0xFF; i++)
10766 iso_code_class[i] = ISO_graphic_plane_1;
10767 iso_code_class[0x20] = iso_code_class[0x7F] = ISO_0x20_or_0x7F;
10768 iso_code_class[0xA0] = iso_code_class[0xFF] = ISO_0xA0_or_0xFF;
10769 iso_code_class[ISO_CODE_SO] = ISO_shift_out;
10770 iso_code_class[ISO_CODE_SI] = ISO_shift_in;
10771 iso_code_class[ISO_CODE_SS2_7] = ISO_single_shift_2_7;
10772 iso_code_class[ISO_CODE_ESC] = ISO_escape;
10773 iso_code_class[ISO_CODE_SS2] = ISO_single_shift_2;
10774 iso_code_class[ISO_CODE_SS3] = ISO_single_shift_3;
10775 iso_code_class[ISO_CODE_CSI] = ISO_control_sequence_introducer;
10777 for (i = 0; i < 256; i++)
10779 emacs_mule_bytes[i] = 1;
10781 emacs_mule_bytes[EMACS_MULE_LEADING_CODE_PRIVATE_11] = 3;
10782 emacs_mule_bytes[EMACS_MULE_LEADING_CODE_PRIVATE_12] = 3;
10783 emacs_mule_bytes[EMACS_MULE_LEADING_CODE_PRIVATE_21] = 4;
10784 emacs_mule_bytes[EMACS_MULE_LEADING_CODE_PRIVATE_22] = 4;
10787 #ifdef emacs
10789 void
10790 syms_of_coding (void)
10792 staticpro (&Vcoding_system_hash_table);
10793 Vcoding_system_hash_table = CALLN (Fmake_hash_table, QCtest, Qeq);
10795 staticpro (&Vsjis_coding_system);
10796 Vsjis_coding_system = Qnil;
10798 staticpro (&Vbig5_coding_system);
10799 Vbig5_coding_system = Qnil;
10801 staticpro (&Vcode_conversion_reused_workbuf);
10802 Vcode_conversion_reused_workbuf = Qnil;
10804 staticpro (&Vcode_conversion_workbuf_name);
10805 Vcode_conversion_workbuf_name = build_pure_c_string (" *code-conversion-work*");
10807 reused_workbuf_in_use = 0;
10809 DEFSYM (Qcharset, "charset");
10810 DEFSYM (Qtarget_idx, "target-idx");
10811 DEFSYM (Qcoding_system_history, "coding-system-history");
10812 Fset (Qcoding_system_history, Qnil);
10814 /* Target FILENAME is the first argument. */
10815 Fput (Qinsert_file_contents, Qtarget_idx, make_number (0));
10816 /* Target FILENAME is the third argument. */
10817 Fput (Qwrite_region, Qtarget_idx, make_number (2));
10819 DEFSYM (Qcall_process, "call-process");
10820 /* Target PROGRAM is the first argument. */
10821 Fput (Qcall_process, Qtarget_idx, make_number (0));
10823 DEFSYM (Qcall_process_region, "call-process-region");
10824 /* Target PROGRAM is the third argument. */
10825 Fput (Qcall_process_region, Qtarget_idx, make_number (2));
10827 DEFSYM (Qstart_process, "start-process");
10828 /* Target PROGRAM is the third argument. */
10829 Fput (Qstart_process, Qtarget_idx, make_number (2));
10831 DEFSYM (Qopen_network_stream, "open-network-stream");
10832 /* Target SERVICE is the fourth argument. */
10833 Fput (Qopen_network_stream, Qtarget_idx, make_number (3));
10835 DEFSYM (Qunix, "unix");
10836 DEFSYM (Qdos, "dos");
10837 DEFSYM (Qmac, "mac");
10839 DEFSYM (Qbuffer_file_coding_system, "buffer-file-coding-system");
10840 DEFSYM (Qundecided, "undecided");
10841 DEFSYM (Qno_conversion, "no-conversion");
10842 DEFSYM (Qraw_text, "raw-text");
10844 DEFSYM (Qiso_2022, "iso-2022");
10846 DEFSYM (Qutf_8, "utf-8");
10847 DEFSYM (Qutf_8_emacs, "utf-8-emacs");
10849 #if defined (WINDOWSNT) || defined (CYGWIN)
10850 /* No, not utf-16-le: that one has a BOM. */
10851 DEFSYM (Qutf_16le, "utf-16le");
10852 #endif
10854 DEFSYM (Qutf_16, "utf-16");
10855 DEFSYM (Qbig, "big");
10856 DEFSYM (Qlittle, "little");
10858 DEFSYM (Qshift_jis, "shift-jis");
10859 DEFSYM (Qbig5, "big5");
10861 DEFSYM (Qcoding_system_p, "coding-system-p");
10863 /* Error signaled when there's a problem with detecting a coding system. */
10864 DEFSYM (Qcoding_system_error, "coding-system-error");
10865 Fput (Qcoding_system_error, Qerror_conditions,
10866 listn (CONSTYPE_PURE, 2, Qcoding_system_error, Qerror));
10867 Fput (Qcoding_system_error, Qerror_message,
10868 build_pure_c_string ("Invalid coding system"));
10870 DEFSYM (Qtranslation_table, "translation-table");
10871 Fput (Qtranslation_table, Qchar_table_extra_slots, make_number (2));
10872 DEFSYM (Qtranslation_table_id, "translation-table-id");
10874 /* Coding system emacs-mule and raw-text are for converting only
10875 end-of-line format. */
10876 DEFSYM (Qemacs_mule, "emacs-mule");
10878 DEFSYM (QCcategory, ":category");
10879 DEFSYM (QCmnemonic, ":mnemonic");
10880 DEFSYM (QCdefault_char, ":default-char");
10881 DEFSYM (QCdecode_translation_table, ":decode-translation-table");
10882 DEFSYM (QCencode_translation_table, ":encode-translation-table");
10883 DEFSYM (QCpost_read_conversion, ":post-read-conversion");
10884 DEFSYM (QCpre_write_conversion, ":pre-write-conversion");
10885 DEFSYM (QCascii_compatible_p, ":ascii-compatible-p");
10887 Vcoding_category_table
10888 = Fmake_vector (make_number (coding_category_max), Qnil);
10889 staticpro (&Vcoding_category_table);
10890 /* Followings are target of code detection. */
10891 ASET (Vcoding_category_table, coding_category_iso_7,
10892 intern_c_string ("coding-category-iso-7"));
10893 ASET (Vcoding_category_table, coding_category_iso_7_tight,
10894 intern_c_string ("coding-category-iso-7-tight"));
10895 ASET (Vcoding_category_table, coding_category_iso_8_1,
10896 intern_c_string ("coding-category-iso-8-1"));
10897 ASET (Vcoding_category_table, coding_category_iso_8_2,
10898 intern_c_string ("coding-category-iso-8-2"));
10899 ASET (Vcoding_category_table, coding_category_iso_7_else,
10900 intern_c_string ("coding-category-iso-7-else"));
10901 ASET (Vcoding_category_table, coding_category_iso_8_else,
10902 intern_c_string ("coding-category-iso-8-else"));
10903 ASET (Vcoding_category_table, coding_category_utf_8_auto,
10904 intern_c_string ("coding-category-utf-8-auto"));
10905 ASET (Vcoding_category_table, coding_category_utf_8_nosig,
10906 intern_c_string ("coding-category-utf-8"));
10907 ASET (Vcoding_category_table, coding_category_utf_8_sig,
10908 intern_c_string ("coding-category-utf-8-sig"));
10909 ASET (Vcoding_category_table, coding_category_utf_16_be,
10910 intern_c_string ("coding-category-utf-16-be"));
10911 ASET (Vcoding_category_table, coding_category_utf_16_auto,
10912 intern_c_string ("coding-category-utf-16-auto"));
10913 ASET (Vcoding_category_table, coding_category_utf_16_le,
10914 intern_c_string ("coding-category-utf-16-le"));
10915 ASET (Vcoding_category_table, coding_category_utf_16_be_nosig,
10916 intern_c_string ("coding-category-utf-16-be-nosig"));
10917 ASET (Vcoding_category_table, coding_category_utf_16_le_nosig,
10918 intern_c_string ("coding-category-utf-16-le-nosig"));
10919 ASET (Vcoding_category_table, coding_category_charset,
10920 intern_c_string ("coding-category-charset"));
10921 ASET (Vcoding_category_table, coding_category_sjis,
10922 intern_c_string ("coding-category-sjis"));
10923 ASET (Vcoding_category_table, coding_category_big5,
10924 intern_c_string ("coding-category-big5"));
10925 ASET (Vcoding_category_table, coding_category_ccl,
10926 intern_c_string ("coding-category-ccl"));
10927 ASET (Vcoding_category_table, coding_category_emacs_mule,
10928 intern_c_string ("coding-category-emacs-mule"));
10929 /* Followings are NOT target of code detection. */
10930 ASET (Vcoding_category_table, coding_category_raw_text,
10931 intern_c_string ("coding-category-raw-text"));
10932 ASET (Vcoding_category_table, coding_category_undecided,
10933 intern_c_string ("coding-category-undecided"));
10935 DEFSYM (Qinsufficient_source, "insufficient-source");
10936 DEFSYM (Qinvalid_source, "invalid-source");
10937 DEFSYM (Qinterrupted, "interrupted");
10939 /* If a symbol has this property, evaluate the value to define the
10940 symbol as a coding system. */
10941 DEFSYM (Qcoding_system_define_form, "coding-system-define-form");
10943 defsubr (&Scoding_system_p);
10944 defsubr (&Sread_coding_system);
10945 defsubr (&Sread_non_nil_coding_system);
10946 defsubr (&Scheck_coding_system);
10947 defsubr (&Sdetect_coding_region);
10948 defsubr (&Sdetect_coding_string);
10949 defsubr (&Sfind_coding_systems_region_internal);
10950 defsubr (&Sunencodable_char_position);
10951 defsubr (&Scheck_coding_systems_region);
10952 defsubr (&Sdecode_coding_region);
10953 defsubr (&Sencode_coding_region);
10954 defsubr (&Sdecode_coding_string);
10955 defsubr (&Sencode_coding_string);
10956 defsubr (&Sdecode_sjis_char);
10957 defsubr (&Sencode_sjis_char);
10958 defsubr (&Sdecode_big5_char);
10959 defsubr (&Sencode_big5_char);
10960 defsubr (&Sset_terminal_coding_system_internal);
10961 defsubr (&Sset_safe_terminal_coding_system_internal);
10962 defsubr (&Sterminal_coding_system);
10963 defsubr (&Sset_keyboard_coding_system_internal);
10964 defsubr (&Skeyboard_coding_system);
10965 defsubr (&Sfind_operation_coding_system);
10966 defsubr (&Sset_coding_system_priority);
10967 defsubr (&Sdefine_coding_system_internal);
10968 defsubr (&Sdefine_coding_system_alias);
10969 defsubr (&Scoding_system_put);
10970 defsubr (&Scoding_system_base);
10971 defsubr (&Scoding_system_plist);
10972 defsubr (&Scoding_system_aliases);
10973 defsubr (&Scoding_system_eol_type);
10974 defsubr (&Scoding_system_priority_list);
10976 DEFVAR_LISP ("coding-system-list", Vcoding_system_list,
10977 doc: /* List of coding systems.
10979 Do not alter the value of this variable manually. This variable should be
10980 updated by the functions `define-coding-system' and
10981 `define-coding-system-alias'. */);
10982 Vcoding_system_list = Qnil;
10984 DEFVAR_LISP ("coding-system-alist", Vcoding_system_alist,
10985 doc: /* Alist of coding system names.
10986 Each element is one element list of coding system name.
10987 This variable is given to `completing-read' as COLLECTION argument.
10989 Do not alter the value of this variable manually. This variable should be
10990 updated by the functions `make-coding-system' and
10991 `define-coding-system-alias'. */);
10992 Vcoding_system_alist = Qnil;
10994 DEFVAR_LISP ("coding-category-list", Vcoding_category_list,
10995 doc: /* List of coding-categories (symbols) ordered by priority.
10997 On detecting a coding system, Emacs tries code detection algorithms
10998 associated with each coding-category one by one in this order. When
10999 one algorithm agrees with a byte sequence of source text, the coding
11000 system bound to the corresponding coding-category is selected.
11002 Don't modify this variable directly, but use `set-coding-system-priority'. */);
11004 int i;
11006 Vcoding_category_list = Qnil;
11007 for (i = coding_category_max - 1; i >= 0; i--)
11008 Vcoding_category_list
11009 = Fcons (AREF (Vcoding_category_table, i),
11010 Vcoding_category_list);
11013 DEFVAR_LISP ("coding-system-for-read", Vcoding_system_for_read,
11014 doc: /* Specify the coding system for read operations.
11015 It is useful to bind this variable with `let', but do not set it globally.
11016 If the value is a coding system, it is used for decoding on read operation.
11017 If not, an appropriate element is used from one of the coding system alists.
11018 There are three such tables: `file-coding-system-alist',
11019 `process-coding-system-alist', and `network-coding-system-alist'. */);
11020 Vcoding_system_for_read = Qnil;
11022 DEFVAR_LISP ("coding-system-for-write", Vcoding_system_for_write,
11023 doc: /* Specify the coding system for write operations.
11024 Programs bind this variable with `let', but you should not set it globally.
11025 If the value is a coding system, it is used for encoding of output,
11026 when writing it to a file and when sending it to a file or subprocess.
11028 If this does not specify a coding system, an appropriate element
11029 is used from one of the coding system alists.
11030 There are three such tables: `file-coding-system-alist',
11031 `process-coding-system-alist', and `network-coding-system-alist'.
11032 For output to files, if the above procedure does not specify a coding system,
11033 the value of `buffer-file-coding-system' is used. */);
11034 Vcoding_system_for_write = Qnil;
11036 DEFVAR_LISP ("last-coding-system-used", Vlast_coding_system_used,
11037 doc: /*
11038 Coding system used in the latest file or process I/O. */);
11039 Vlast_coding_system_used = Qnil;
11041 DEFVAR_LISP ("last-code-conversion-error", Vlast_code_conversion_error,
11042 doc: /*
11043 Error status of the last code conversion.
11045 When an error was detected in the last code conversion, this variable
11046 is set to one of the following symbols.
11047 `insufficient-source'
11048 `inconsistent-eol'
11049 `invalid-source'
11050 `interrupted'
11051 `insufficient-memory'
11052 When no error was detected, the value doesn't change. So, to check
11053 the error status of a code conversion by this variable, you must
11054 explicitly set this variable to nil before performing code
11055 conversion. */);
11056 Vlast_code_conversion_error = Qnil;
11058 DEFVAR_BOOL ("inhibit-eol-conversion", inhibit_eol_conversion,
11059 doc: /*
11060 Non-nil means always inhibit code conversion of end-of-line format.
11061 See info node `Coding Systems' and info node `Text and Binary' concerning
11062 such conversion. */);
11063 inhibit_eol_conversion = 0;
11065 DEFVAR_BOOL ("inherit-process-coding-system", inherit_process_coding_system,
11066 doc: /*
11067 Non-nil means process buffer inherits coding system of process output.
11068 Bind it to t if the process output is to be treated as if it were a file
11069 read from some filesystem. */);
11070 inherit_process_coding_system = 0;
11072 DEFVAR_LISP ("file-coding-system-alist", Vfile_coding_system_alist,
11073 doc: /*
11074 Alist to decide a coding system to use for a file I/O operation.
11075 The format is ((PATTERN . VAL) ...),
11076 where PATTERN is a regular expression matching a file name,
11077 VAL is a coding system, a cons of coding systems, or a function symbol.
11078 If VAL is a coding system, it is used for both decoding and encoding
11079 the file contents.
11080 If VAL is a cons of coding systems, the car part is used for decoding,
11081 and the cdr part is used for encoding.
11082 If VAL is a function symbol, the function must return a coding system
11083 or a cons of coding systems which are used as above. The function is
11084 called with an argument that is a list of the arguments with which
11085 `find-operation-coding-system' was called. If the function can't decide
11086 a coding system, it can return `undecided' so that the normal
11087 code-detection is performed.
11089 See also the function `find-operation-coding-system'
11090 and the variable `auto-coding-alist'. */);
11091 Vfile_coding_system_alist = Qnil;
11093 DEFVAR_LISP ("process-coding-system-alist", Vprocess_coding_system_alist,
11094 doc: /*
11095 Alist to decide a coding system to use for a process I/O operation.
11096 The format is ((PATTERN . VAL) ...),
11097 where PATTERN is a regular expression matching a program name,
11098 VAL is a coding system, a cons of coding systems, or a function symbol.
11099 If VAL is a coding system, it is used for both decoding what received
11100 from the program and encoding what sent to the program.
11101 If VAL is a cons of coding systems, the car part is used for decoding,
11102 and the cdr part is used for encoding.
11103 If VAL is a function symbol, the function must return a coding system
11104 or a cons of coding systems which are used as above.
11106 See also the function `find-operation-coding-system'. */);
11107 Vprocess_coding_system_alist = Qnil;
11109 DEFVAR_LISP ("network-coding-system-alist", Vnetwork_coding_system_alist,
11110 doc: /*
11111 Alist to decide a coding system to use for a network I/O operation.
11112 The format is ((PATTERN . VAL) ...),
11113 where PATTERN is a regular expression matching a network service name
11114 or is a port number to connect to,
11115 VAL is a coding system, a cons of coding systems, or a function symbol.
11116 If VAL is a coding system, it is used for both decoding what received
11117 from the network stream and encoding what sent to the network stream.
11118 If VAL is a cons of coding systems, the car part is used for decoding,
11119 and the cdr part is used for encoding.
11120 If VAL is a function symbol, the function must return a coding system
11121 or a cons of coding systems which are used as above.
11123 See also the function `find-operation-coding-system'. */);
11124 Vnetwork_coding_system_alist = Qnil;
11126 DEFVAR_LISP ("locale-coding-system", Vlocale_coding_system,
11127 doc: /* Coding system to use with system messages.
11128 Also used for decoding keyboard input on X Window system, and for
11129 encoding standard output and error streams. */);
11130 Vlocale_coding_system = Qnil;
11132 /* The eol mnemonics are reset in startup.el system-dependently. */
11133 DEFVAR_LISP ("eol-mnemonic-unix", eol_mnemonic_unix,
11134 doc: /*
11135 String displayed in mode line for UNIX-like (LF) end-of-line format. */);
11136 eol_mnemonic_unix = build_pure_c_string (":");
11138 DEFVAR_LISP ("eol-mnemonic-dos", eol_mnemonic_dos,
11139 doc: /*
11140 String displayed in mode line for DOS-like (CRLF) end-of-line format. */);
11141 eol_mnemonic_dos = build_pure_c_string ("\\");
11143 DEFVAR_LISP ("eol-mnemonic-mac", eol_mnemonic_mac,
11144 doc: /*
11145 String displayed in mode line for MAC-like (CR) end-of-line format. */);
11146 eol_mnemonic_mac = build_pure_c_string ("/");
11148 DEFVAR_LISP ("eol-mnemonic-undecided", eol_mnemonic_undecided,
11149 doc: /*
11150 String displayed in mode line when end-of-line format is not yet determined. */);
11151 eol_mnemonic_undecided = build_pure_c_string (":");
11153 DEFVAR_LISP ("enable-character-translation", Venable_character_translation,
11154 doc: /*
11155 Non-nil enables character translation while encoding and decoding. */);
11156 Venable_character_translation = Qt;
11158 DEFVAR_LISP ("standard-translation-table-for-decode",
11159 Vstandard_translation_table_for_decode,
11160 doc: /* Table for translating characters while decoding. */);
11161 Vstandard_translation_table_for_decode = Qnil;
11163 DEFVAR_LISP ("standard-translation-table-for-encode",
11164 Vstandard_translation_table_for_encode,
11165 doc: /* Table for translating characters while encoding. */);
11166 Vstandard_translation_table_for_encode = Qnil;
11168 DEFVAR_LISP ("charset-revision-table", Vcharset_revision_table,
11169 doc: /* Alist of charsets vs revision numbers.
11170 While encoding, if a charset (car part of an element) is found,
11171 designate it with the escape sequence identifying revision (cdr part
11172 of the element). */);
11173 Vcharset_revision_table = Qnil;
11175 DEFVAR_LISP ("default-process-coding-system",
11176 Vdefault_process_coding_system,
11177 doc: /* Cons of coding systems used for process I/O by default.
11178 The car part is used for decoding a process output,
11179 the cdr part is used for encoding a text to be sent to a process. */);
11180 Vdefault_process_coding_system = Qnil;
11182 DEFVAR_LISP ("latin-extra-code-table", Vlatin_extra_code_table,
11183 doc: /*
11184 Table of extra Latin codes in the range 128..159 (inclusive).
11185 This is a vector of length 256.
11186 If Nth element is non-nil, the existence of code N in a file
11187 \(or output of subprocess) doesn't prevent it to be detected as
11188 a coding system of ISO 2022 variant which has a flag
11189 `accept-latin-extra-code' t (e.g. iso-latin-1) on reading a file
11190 or reading output of a subprocess.
11191 Only 128th through 159th elements have a meaning. */);
11192 Vlatin_extra_code_table = Fmake_vector (make_number (256), Qnil);
11194 DEFVAR_LISP ("select-safe-coding-system-function",
11195 Vselect_safe_coding_system_function,
11196 doc: /*
11197 Function to call to select safe coding system for encoding a text.
11199 If set, this function is called to force a user to select a proper
11200 coding system which can encode the text in the case that a default
11201 coding system used in each operation can't encode the text. The
11202 function should take care that the buffer is not modified while
11203 the coding system is being selected.
11205 The default value is `select-safe-coding-system' (which see). */);
11206 Vselect_safe_coding_system_function = Qnil;
11208 DEFVAR_BOOL ("coding-system-require-warning",
11209 coding_system_require_warning,
11210 doc: /* Internal use only.
11211 If non-nil, on writing a file, `select-safe-coding-system-function' is
11212 called even if `coding-system-for-write' is non-nil. The command
11213 `universal-coding-system-argument' binds this variable to t temporarily. */);
11214 coding_system_require_warning = 0;
11217 DEFVAR_BOOL ("inhibit-iso-escape-detection",
11218 inhibit_iso_escape_detection,
11219 doc: /*
11220 If non-nil, Emacs ignores ISO-2022 escape sequences during code detection.
11222 When Emacs reads text, it tries to detect how the text is encoded.
11223 This code detection is sensitive to escape sequences. If Emacs sees
11224 a valid ISO-2022 escape sequence, it assumes the text is encoded in one
11225 of the ISO2022 encodings, and decodes text by the corresponding coding
11226 system (e.g. `iso-2022-7bit').
11228 However, there may be a case that you want to read escape sequences in
11229 a file as is. In such a case, you can set this variable to non-nil.
11230 Then the code detection will ignore any escape sequences, and no text is
11231 detected as encoded in some ISO-2022 encoding. The result is that all
11232 escape sequences become visible in a buffer.
11234 The default value is nil, and it is strongly recommended not to change
11235 it. That is because many Emacs Lisp source files that contain
11236 non-ASCII characters are encoded by the coding system `iso-2022-7bit'
11237 in Emacs's distribution, and they won't be decoded correctly on
11238 reading if you suppress escape sequence detection.
11240 The other way to read escape sequences in a file without decoding is
11241 to explicitly specify some coding system that doesn't use ISO-2022
11242 escape sequence (e.g., `latin-1') on reading by \\[universal-coding-system-argument]. */);
11243 inhibit_iso_escape_detection = 0;
11245 DEFVAR_BOOL ("inhibit-null-byte-detection",
11246 inhibit_null_byte_detection,
11247 doc: /* If non-nil, Emacs ignores null bytes on code detection.
11248 By default, Emacs treats it as binary data, and does not attempt to
11249 decode it. The effect is as if you specified `no-conversion' for
11250 reading that text.
11252 Set this to non-nil when a regular text happens to include null bytes.
11253 Examples are Index nodes of Info files and null-byte delimited output
11254 from GNU Find and GNU Grep. Emacs will then ignore the null bytes and
11255 decode text as usual. */);
11256 inhibit_null_byte_detection = 0;
11258 DEFVAR_BOOL ("disable-ascii-optimization", disable_ascii_optimization,
11259 doc: /* If non-nil, Emacs does not optimize code decoder for ASCII files.
11260 Internal use only. Remove after the experimental optimizer becomes stable. */);
11261 disable_ascii_optimization = 0;
11263 DEFVAR_LISP ("translation-table-for-input", Vtranslation_table_for_input,
11264 doc: /* Char table for translating self-inserting characters.
11265 This is applied to the result of input methods, not their input.
11266 See also `keyboard-translate-table'.
11268 Use of this variable for character code unification was rendered
11269 obsolete in Emacs 23.1 and later, since Unicode is now the basis of
11270 internal character representation. */);
11271 Vtranslation_table_for_input = Qnil;
11273 Lisp_Object args[coding_arg_undecided_max];
11274 memclear (args, sizeof args);
11276 Lisp_Object plist[] =
11278 QCname,
11279 args[coding_arg_name] = Qno_conversion,
11280 QCmnemonic,
11281 args[coding_arg_mnemonic] = make_number ('='),
11282 intern_c_string (":coding-type"),
11283 args[coding_arg_coding_type] = Qraw_text,
11284 QCascii_compatible_p,
11285 args[coding_arg_ascii_compatible_p] = Qt,
11286 QCdefault_char,
11287 args[coding_arg_default_char] = make_number (0),
11288 intern_c_string (":for-unibyte"),
11289 args[coding_arg_for_unibyte] = Qt,
11290 intern_c_string (":docstring"),
11291 (build_pure_c_string
11292 ("Do no conversion.\n"
11293 "\n"
11294 "When you visit a file with this coding, the file is read into a\n"
11295 "unibyte buffer as is, thus each byte of a file is treated as a\n"
11296 "character.")),
11297 intern_c_string (":eol-type"),
11298 args[coding_arg_eol_type] = Qunix,
11300 args[coding_arg_plist] = CALLMANY (Flist, plist);
11301 Fdefine_coding_system_internal (coding_arg_max, args);
11303 plist[1] = args[coding_arg_name] = Qundecided;
11304 plist[3] = args[coding_arg_mnemonic] = make_number ('-');
11305 plist[5] = args[coding_arg_coding_type] = Qundecided;
11306 /* This is already set.
11307 plist[7] = args[coding_arg_ascii_compatible_p] = Qt; */
11308 plist[8] = intern_c_string (":charset-list");
11309 plist[9] = args[coding_arg_charset_list] = Fcons (Qascii, Qnil);
11310 plist[11] = args[coding_arg_for_unibyte] = Qnil;
11311 plist[13] = build_pure_c_string ("No conversion on encoding, "
11312 "automatic conversion on decoding.");
11313 plist[15] = args[coding_arg_eol_type] = Qnil;
11314 args[coding_arg_plist] = CALLMANY (Flist, plist);
11315 args[coding_arg_undecided_inhibit_null_byte_detection] = make_number (0);
11316 args[coding_arg_undecided_inhibit_iso_escape_detection] = make_number (0);
11317 Fdefine_coding_system_internal (coding_arg_undecided_max, args);
11319 setup_coding_system (Qno_conversion, &safe_terminal_coding);
11321 for (int i = 0; i < coding_category_max; i++)
11322 Fset (AREF (Vcoding_category_table, i), Qno_conversion);
11324 #if defined (DOS_NT)
11325 system_eol_type = Qdos;
11326 #else
11327 system_eol_type = Qunix;
11328 #endif
11329 staticpro (&system_eol_type);
11331 #endif /* emacs */