Sync up with r21-4-10-utf-2000-0_20-ucs-jis-l.

[chise/xemacs-chise.git] / src / char-ucs.h

/* Header for UCS-4 character representation.
   Copyright (C) 1999,2000,2001,2002,2003 MORIOKA Tomohiko

This file is part of XEmacs.

XEmacs is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the
Free Software Foundation; either version 2, or (at your option) any
later version.

XEmacs is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
for more details.

You should have received a copy of the GNU General Public License
along with XEmacs; see the file COPYING.  If not, write to
the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA.  */

#ifndef INCLUDED_char_ucs_h_
#define INCLUDED_char_ucs_h_

#include "chartab.h"
#include "elhash.h"

extern Lisp_Object Vchar_attribute_hash_table;

#define valid_char_p(ch) 1

#define CHAR_ASCII_P(ch) ((ch) <= 0x7F)

\f
/************************************************************************/
/*                            Exported functions                        */
/************************************************************************/

extern Lisp_Object Vcharset_ucs;
extern Lisp_Object Vcharset_latin_jisx0201;
extern Lisp_Object Vcharset_chinese_big5;
extern Lisp_Object Vcharset_chinese_big5_1;
extern Lisp_Object Vcharset_chinese_big5_2;
extern Lisp_Object Vcharset_japanese_jisx0208;
extern Lisp_Object Vcharset_japanese_jisx0208_1990;
extern Lisp_Object Vcharset_japanese_jisx0212;

EXFUN (Fget_charset, 1);

extern Lisp_Object Qucs;

Lisp_Object put_char_ccs_code_point (Lisp_Object character,
                                     Lisp_Object ccs, Lisp_Object value);
Lisp_Object remove_char_ccs (Lisp_Object character, Lisp_Object ccs);

\f
/************************************************************************/
/*                    Definition of leading bytes                       */
/************************************************************************/

typedef short Charset_ID;

#define MIN_LEADING_BYTE                -0x200

/* ISO/IEC 10646 */
#define LEADING_BYTE_UCS                (MIN_LEADING_BYTE + 1)

/* represent normal 80-9F */
#define LEADING_BYTE_CONTROL_1          (MIN_LEADING_BYTE + 2)

/* ISO/IEC 10646 BMP */
#define LEADING_BYTE_UCS_BMP            (MIN_LEADING_BYTE + 3)

/* ISO/IEC 10646 SMP */
#define LEADING_BYTE_UCS_SMP            (MIN_LEADING_BYTE + 4)

/* ISO/IEC 10646 SIP */
#define LEADING_BYTE_UCS_SIP            (MIN_LEADING_BYTE + 5)

/* ISO/IEC 10646 for GB */
#define LEADING_BYTE_UCS_GB             (MIN_LEADING_BYTE + 6)

/* ISO/IEC 10646 for CNS */
#define LEADING_BYTE_UCS_CNS            (MIN_LEADING_BYTE + 7)

/* Japanese JIS X0208 Common    2/4 2/{(8),9,10,11} 4/2 (B) */
#define LEADING_BYTE_JIS_X0208          (MIN_LEADING_BYTE + 11)

/* Japanese JIS X0208-1990      2/4 2/{(8),9,10,11} 4/2 (B) */
#define LEADING_BYTE_JAPANESE_JISX0208_1990 (MIN_LEADING_BYTE + 12)

/* Chinese GB 12345-1990 */
#define LEADING_BYTE_CHINESE_GB12345    (MIN_LEADING_BYTE + 13)

#define LEADING_BYTE_CHINESE_BIG5       (MIN_LEADING_BYTE + 20)

/* Big5 Level 1                 2/4 2/{(8),9,10,11} 4/0 '0' */
#define LEADING_BYTE_CHINESE_BIG5_1     (MIN_LEADING_BYTE + 21)

/* Big5 Level 2                 2/4 2/{(8),9,10,11} 4/0 '1' */
#define LEADING_BYTE_CHINESE_BIG5_2     (MIN_LEADING_BYTE + 22)

/* VISCII 1.1 */
#define LEADING_BYTE_LATIN_VISCII       (MIN_LEADING_BYTE + 24)

/* MULE VISCII-LOWER                    (CHARSET_ID_OFFSET_96 + '1') */
#define LEADING_BYTE_LATIN_VISCII_LOWER (MIN_LEADING_BYTE + 25)

/* MULE VISCII-UPPER                    (CHARSET_ID_OFFSET_96 + '2') */
#define LEADING_BYTE_LATIN_VISCII_UPPER (MIN_LEADING_BYTE + 26)

#define LEADING_BYTE_ETHIOPIC_UCS       (MIN_LEADING_BYTE + 27)

#define MIN_LEADING_BYTE_PRIVATE        (MIN_LEADING_BYTE + 97)
#define MAX_LEADING_BYTE_PRIVATE        -1


/* ISO 646 IRV */
#define LEADING_BYTE_ASCII                6 /* (CHARSET_ID_OFFSET_94 + 'B') */

/* Right half of JIS X0201-1976 */
#define LEADING_BYTE_KATAKANA_JISX0201   13 /* (CHARSET_ID_OFFSET_94 + 'I') */

/* Left  half of JIS X0201-1976 */
#define LEADING_BYTE_LATIN_JISX0201      14 /* (CHARSET_ID_OFFSET_94 + 'J') */


/* #define CHARSET_ID_OFFSET_96         (CHARSET_ID_OFFSET_94 + 80) */

/* Right half of ISO 8859-1 */
#define LEADING_BYTE_LATIN_ISO8859_1    100 /* (CHARSET_ID_OFFSET_96 + 'A') */

/* Right half of ISO 8859-2 */
#define LEADING_BYTE_LATIN_ISO8859_2    101 /* (CHARSET_ID_OFFSET_96 + 'B') */

/* Right half of ISO 8859-3 */
#define LEADING_BYTE_LATIN_ISO8859_3    109 /* (CHARSET_ID_OFFSET_96 + 'C') */

/* Right half of ISO 8859-4 */
#define LEADING_BYTE_LATIN_ISO8859_4    110 /* (CHARSET_ID_OFFSET_96 + 'D') */

/* Right half of ISO 8859-7 */
#define LEADING_BYTE_GREEK_ISO8859_7    126 /* (CHARSET_ID_OFFSET_96 + 'F') */

/* Right half of ISO 8859-6 */
#define LEADING_BYTE_ARABIC_ISO8859_6   127 /* (CHARSET_ID_OFFSET_96 + 'G') */

/* Right half of ISO 8859-8 */
#define LEADING_BYTE_HEBREW_ISO8859_8   138 /* (CHARSET_ID_OFFSET_96 + 'H') */

/* Right half of ISO 8859-5 */
#define LEADING_BYTE_CYRILLIC_ISO8859_5 144 /* (CHARSET_ID_OFFSET_96 + 'L') */

/* Right half of ISO 8859-9 */
#define LEADING_BYTE_LATIN_ISO8859_9    148 /* (CHARSET_ID_OFFSET_96 + 'M') */

/* TIS620-2533 */
#define LEADING_BYTE_THAI_TIS620        166 /* (CHARSET_ID_OFFSET_96 + 'T') */

/* Right-hand Part of the VSCII-2 (TCVN 5712:1983) */
#define LEADING_BYTE_LATIN_TCVN5712     180 /* F = 5/10 0x5A `Z' */


/* #define CHARSET_ID_OFFSET_94x94              (CHARSET_ID_OFFSET_96 + 80) */

/* #define MIN_LEADING_BYTE_PRIVATE_2   ('0' + CHARSET_ID_OFFSET_94x94) */
/* #define MAX_LEADING_BYTE_PRIVATE_2   ('?' + CHARSET_ID_OFFSET_94x94) */

/* Japanese JIS X0208-1978      2/4 2/{(8),9,10,11} 4/0 (@) */
#define LEADING_BYTE_JAPANESE_JISX0208_1978      42

/* Chinese Hanzi GB2312-1980    2/4 2/{(8),9,10,11} 4/1 (A) */
#define LEADING_BYTE_CHINESE_GB2312              58

/* Japanese JIS X0208-1983      2/4 2/{(8),9,10,11} 4/2 (B) */
#define LEADING_BYTE_JAPANESE_JISX0208           87

/* Hangul KS C5601-1987         2/4 2/{8,9,10,11} 4/3 (C) */
#define LEADING_BYTE_KOREAN_KSC5601             149

/* Japanese JIS X0212-1990      2/4 2/{8,9,10,11} 4/4 (D) */
#define LEADING_BYTE_JAPANESE_JISX0212          159

/* CCITT Extended GB            2/4 2/{8,9,10,11} 4/5 (E) */
#define LEADING_BYTE_CHINESE_CCITT_GB           165

/* Chinese CNS11643 Set 1       2/4 2/{8,9,10,11} 4/7 (G) */
#define LEADING_BYTE_CHINESE_CNS11643_1         171

/* Chinese CNS11643 Set 2       2/4 2/{8,9,10,11} 4/8 (H) */
#define LEADING_BYTE_CHINESE_CNS11643_2         172

/* Chinese CNS11643 Set 3       2/4 2/{8,9,10,11} 4/9 (I) */
#define LEADING_BYTE_CHINESE_CNS11643_3         183

/* Chinese CNS11643 Set 4       2/4 2/{8,9,10,11} 4/10 (J) */
#define LEADING_BYTE_CHINESE_CNS11643_4         184

/* Chinese CNS11643 Set 5       2/4 2/{8,9,10,11} 4/11 (K) */
#define LEADING_BYTE_CHINESE_CNS11643_5         185

/* Chinese CNS11643 Set 6       2/4 2/{8,9,10,11} 4/12 (L) */
#define LEADING_BYTE_CHINESE_CNS11643_6         186

/* Chinese CNS11643 Set 7       2/4 2/{8,9,10,11} 4/13 (M) */
#define LEADING_BYTE_CHINESE_CNS11643_7         187

/* DPRK Hangul KPS 9566-1997    2/4 2/{8,9,10,11} 4/14 (N) */
#define LEADING_BYTE_KOREAN_KPS9566             202


#define NUM_LEADING_BYTES       (80 * 3 - MIN_LEADING_BYTE)

\f
/************************************************************************/
/*            Information about a particular character set              */
/************************************************************************/

struct Lisp_Charset
{
  struct lcrecord_header header;

  int id;
  Lisp_Object name;
  Lisp_Object doc_string;
  Lisp_Object registry;
  Lisp_Object short_name;
  Lisp_Object long_name;

  Lisp_Object reverse_direction_charset;

  Lisp_Object ccl_program;

  /* Final byte of this character set in ISO2022 designating escape sequence */
  Bufbyte final;

  /* Number of columns a character in this charset takes up, on TTY
     devices.  Not used for X devices. */
  unsigned int columns;

  /* Direction of this character set */
  unsigned int direction;

  /* Number of bytes used in encoding of this character set (1 .. 4) */
  unsigned short dimension;

  /* Number of chars in each dimension (94, 96, 128, 256) */
  unsigned short chars;

  /* Which half of font to be used to display this character set */
  unsigned int graphic;

  /* Code-point->character mapping table */
  Lisp_Object decoding_table;

  /* Base CCS */
  Lisp_Object mother;

  /* Range of character code */
  int min_code, max_code;

  /* Offset for external code */
  int code_offset;

  /* Type of conversion from mother CCS */
  unsigned char conversion;

  /* Offset for each byte */
  int byte_offset;
};
typedef struct Lisp_Charset Lisp_Charset;

DECLARE_LRECORD (charset, Lisp_Charset);
#define XCHARSET(x) XRECORD (x, charset, Lisp_Charset)
#define XSETCHARSET(x, p) XSETRECORD (x, p, charset)
#define CHARSETP(x) RECORDP (x, charset)
#define CHECK_CHARSET(x) CHECK_RECORD (x, charset)
#define CONCHECK_CHARSET(x) CONCHECK_RECORD (x, charset)

#define CHARSET_LEFT_TO_RIGHT   0
#define CHARSET_RIGHT_TO_LEFT   1

/* Leading byte and id have been regrouped. -- OG */
#define CHARSET_ID(cs)           ((cs)->id)
#define CHARSET_LEADING_BYTE(cs) (CHARSET_ID(cs))
#define CHARSET_NAME(cs)         ((cs)->name)
#define CHARSET_SHORT_NAME(cs)   ((cs)->short_name)
#define CHARSET_LONG_NAME(cs)    ((cs)->long_name)
#define CHARSET_COLUMNS(cs)      ((cs)->columns)
#define CHARSET_GRAPHIC(cs)      ((cs)->graphic)
#define CHARSET_DIRECTION(cs)    ((cs)->direction)
#define CHARSET_FINAL(cs)        ((cs)->final)
#define CHARSET_DOC_STRING(cs)   ((cs)->doc_string)
#define CHARSET_REGISTRY(cs)     ((cs)->registry)
#define CHARSET_CCL_PROGRAM(cs)  ((cs)->ccl_program)
#define CHARSET_DIMENSION(cs)    ((cs)->dimension)
#define CHARSET_CHARS(cs)        ((cs)->chars)
#define CHARSET_REVERSE_DIRECTION_CHARSET(cs) ((cs)->reverse_direction_charset)
#define CHARSET_DECODING_TABLE(cs) ((cs)->decoding_table)
#define CHARSET_MIN_CODE(cs)     ((cs)->min_code)
#define CHARSET_MAX_CODE(cs)     ((cs)->max_code)
#define CHARSET_CODE_OFFSET(cs)  ((cs)->code_offset)
#define CHARSET_BYTE_OFFSET(cs)  ((cs)->byte_offset)
#define CHARSET_MOTHER(cs)       ((cs)->mother)
#define CHARSET_CONVERSION(cs)   ((cs)->conversion)

INLINE_HEADER int CHARSET_BYTE_SIZE (Lisp_Charset* cs);
INLINE_HEADER int
CHARSET_BYTE_SIZE (Lisp_Charset* cs)
{
  /* ad-hoc method for `ascii' */
  if ((CHARSET_CHARS (cs) == 94) &&
      (CHARSET_BYTE_OFFSET (cs) != 33))
    return 128 - CHARSET_BYTE_OFFSET (cs);
  else
    return CHARSET_CHARS (cs);
}

INLINE_HEADER Lisp_Object CHARSET_ENCODING_TABLE (Lisp_Charset* cs);
INLINE_HEADER Lisp_Object
CHARSET_ENCODING_TABLE (Lisp_Charset* cs)
{
  return Fgethash (CHARSET_NAME(cs),
                   Vchar_attribute_hash_table,
                   Qnil);
}

#define CONVERSION_IDENTICAL    0
#define CONVERSION_94           1
#define CONVERSION_96           2
#define CONVERSION_94x60        3
#define CONVERSION_94x94        4
#define CONVERSION_96x96        5
#define CONVERSION_94x94x60     6
#define CONVERSION_94x94x94     7
#define CONVERSION_96x96x96     8
#define CONVERSION_94x94x94x60  9
#define CONVERSION_94x94x94x94  10
#define CONVERSION_96x96x96x96  11

#define XCHARSET_ID(cs)           CHARSET_ID           (XCHARSET (cs))
#define XCHARSET_NAME(cs)         CHARSET_NAME         (XCHARSET (cs))
#define XCHARSET_SHORT_NAME(cs)   CHARSET_SHORT_NAME   (XCHARSET (cs))
#define XCHARSET_LONG_NAME(cs)    CHARSET_LONG_NAME    (XCHARSET (cs))
#define XCHARSET_GRAPHIC(cs)      CHARSET_GRAPHIC      (XCHARSET (cs))
#define XCHARSET_DIRECTION(cs)    CHARSET_DIRECTION    (XCHARSET (cs))
#define XCHARSET_FINAL(cs)        CHARSET_FINAL        (XCHARSET (cs))
#define XCHARSET_DOC_STRING(cs)   CHARSET_DOC_STRING   (XCHARSET (cs))
#define XCHARSET_REGISTRY(cs)     CHARSET_REGISTRY     (XCHARSET (cs))
#define XCHARSET_LEADING_BYTE(cs) CHARSET_LEADING_BYTE (XCHARSET (cs))
#define XCHARSET_CCL_PROGRAM(cs)  CHARSET_CCL_PROGRAM  (XCHARSET (cs))
#define XCHARSET_DIMENSION(cs)    CHARSET_DIMENSION    (XCHARSET (cs))
#define XCHARSET_CHARS(cs)        CHARSET_CHARS        (XCHARSET (cs))
#define XCHARSET_BYTE_SIZE(cs)    CHARSET_BYTE_SIZE    (XCHARSET (cs))
#define XCHARSET_REVERSE_DIRECTION_CHARSET(cs) \
  CHARSET_REVERSE_DIRECTION_CHARSET (XCHARSET (cs))
#define XCHARSET_DECODING_TABLE(cs) CHARSET_DECODING_TABLE(XCHARSET(cs))
#define XCHARSET_ENCODING_TABLE(cs) CHARSET_ENCODING_TABLE(XCHARSET(cs))
#define XCHARSET_MIN_CODE(cs)     CHARSET_MIN_CODE(XCHARSET(cs))
#define XCHARSET_MAX_CODE(cs)     CHARSET_MAX_CODE(XCHARSET(cs))
#define XCHARSET_CODE_OFFSET(cs)  CHARSET_CODE_OFFSET(XCHARSET(cs))
#define XCHARSET_BYTE_OFFSET(cs)  CHARSET_BYTE_OFFSET(XCHARSET(cs))
#define XCHARSET_MOTHER(cs)       CHARSET_MOTHER(XCHARSET(cs))
#define XCHARSET_CONVERSION(cs)   CHARSET_CONVERSION(XCHARSET(cs))

struct charset_lookup {
  /* Table of charsets indexed by (leading byte - 128). */
  Lisp_Object charset_by_leading_byte[NUM_LEADING_BYTES];
  
  /* Table of charsets indexed by type/final-byte/direction. */
  Lisp_Object charset_by_attributes[4][128];

  Charset_ID next_allocated_leading_byte;
};

extern struct charset_lookup *chlook;

#ifdef ERROR_CHECK_TYPECHECK
/* int not Bufbyte even though that is the actual type of a leading byte.
   This way, out-ot-range values will get caught rather than automatically
   truncated. */
INLINE_HEADER Lisp_Object CHARSET_BY_LEADING_BYTE (Charset_ID lb);
INLINE_HEADER Lisp_Object
CHARSET_BY_LEADING_BYTE (Charset_ID lb)
{
  assert (lb >= MIN_LEADING_BYTE &&
          lb < (MIN_LEADING_BYTE + NUM_LEADING_BYTES));
  return chlook->charset_by_leading_byte[lb - MIN_LEADING_BYTE];
}

#else

#define CHARSET_BY_LEADING_BYTE(lb) \
  (chlook->charset_by_leading_byte[(lb) - MIN_LEADING_BYTE])

#endif

INLINE_HEADER Lisp_Object
CHARSET_BY_ATTRIBUTES (int chars, int dimension, int final, int dir);
INLINE_HEADER Lisp_Object
CHARSET_BY_ATTRIBUTES (int chars, int dimension, int final, int dir)
{
  int type;

  if (chars == 94)
    type = 0;
  else if (chars == 96)
    type = 1;
  else
    return Qnil;
  type += dimension == 1 ? 0 : 2;
  return chlook->charset_by_attributes[type][final];
}

\f
/************************************************************************/
/*                        Dealing with characters                       */
/************************************************************************/

#define MAX_CHAR_BASIC_LATIN    0x007F

/*
#define MIN_CHAR_HEBREW         0x0590
#define MAX_CHAR_HEBREW         0x05EF
*/

#define MIN_CHAR_THAI           0x0E00
#define MAX_CHAR_THAI           0x0E5F

/*
#define MIN_CHAR_HIRAGANA       0x3041
#define MAX_CHAR_HIRAGANA       0x3093

#define MIN_CHAR_KATAKANA       0x30A1
#define MAX_CHAR_KATAKANA       0x30F6
*/

#define MIN_CHAR_HALFWIDTH_KATAKANA     0xFF61
#define MAX_CHAR_HALFWIDTH_KATAKANA     0xFF9F

#define MAX_CHAR_BMP            0x00FFFF

#define MIN_CHAR_SMP            0x010000
#define MAX_CHAR_SMP            0x01FFFF

#define MIN_CHAR_SIP            0x020000
#define MAX_CHAR_SIP            0x02FFFF

#if 0
#define MIN_CHAR_DAIKANWA       0x00E00000
#define MAX_CHAR_DAIKANWA       (MIN_CHAR_DAIKANWA + 50100) /* 0xE0FFFF */

#define MIN_CHAR_CBETA          0x00E20000
#define MAX_CHAR_CBETA          0x00E2FFFF

#define MIN_CHAR_CHINA3_JEF     0x00E80000
#define MAX_CHAR_CHINA3_JEF     0x00E8FFFF
#endif

#define MIN_CHAR_94             0x00E90940
#define MAX_CHAR_94             (MIN_CHAR_94 + 94 * 80 - 1)
#define MIN_CHAR_96             (MIN_CHAR_94 + 94 * 80)
#define MAX_CHAR_96             (MIN_CHAR_96 + 96 * 80 - 1)

#define MIN_CHAR_94x94          0xE9F6C0
#define MIN_CHAR_JIS_X0208_1990 (MIN_CHAR_94x94 + 94 * 94 * 79)
#define MAX_CHAR_94x94          (MIN_CHAR_94x94 + 94 * 94 * 80 - 1)
#define MAX_CHAR_JIS_X0208_1990 MAX_CHAR_94x94
#define MIN_CHAR_96x96          0xF4C000
#define MAX_CHAR_96x96          (MIN_CHAR_96x96 + 96 * 96 * 80 - 1)

/*
#define MIN_CHAR_GT             0x61000000
#define MAX_CHAR_GT             (MIN_CHAR_GT + 67547)
*/
#define MIN_CHAR_BIG5_CDP       0x62000000
#define MAX_CHAR_BIG5_CDP       0x6200FFFF
/*
#define MIN_CHAR_HANZIKU_1      (0x62000000 + 65536 * 1)
#define MAX_CHAR_HANZIKU_1      (0x62000000 + 65536 * 1 + 65535)
#define MIN_CHAR_HANZIKU_2      (0x62000000 + 65536 * 2)
#define MAX_CHAR_HANZIKU_2      (0x62000000 + 65536 * 2 + 65535)
#define MIN_CHAR_HANZIKU_3      (0x62000000 + 65536 * 3)
#define MAX_CHAR_HANZIKU_3      (0x62000000 + 65536 * 3 + 65535)
#define MIN_CHAR_HANZIKU_4      (0x62000000 + 65536 * 4)
#define MAX_CHAR_HANZIKU_4      (0x62000000 + 65536 * 4 + 65535)
#define MIN_CHAR_HANZIKU_5      (0x62000000 + 65536 * 5)
#define MAX_CHAR_HANZIKU_5      (0x62000000 + 65536 * 5 + 65535)
#define MIN_CHAR_HANZIKU_6      (0x62000000 + 65536 * 6)
#define MAX_CHAR_HANZIKU_6      (0x62000000 + 65536 * 6 + 65535)
#define MIN_CHAR_HANZIKU_7      (0x62000000 + 65536 * 7)
#define MAX_CHAR_HANZIKU_7      (0x62000000 + 65536 * 7 + 65535)
#define MIN_CHAR_HANZIKU_8      (0x62000000 + 65536 * 8)
#define MAX_CHAR_HANZIKU_8      (0x62000000 + 65536 * 8 + 65535)
#define MIN_CHAR_HANZIKU_9      (0x62000000 + 65536 * 9)
#define MAX_CHAR_HANZIKU_9      (0x62000000 + 65536 * 9 + 65535)
#define MIN_CHAR_HANZIKU_10     (0x62000000 + 65536 * 10)
#define MAX_CHAR_HANZIKU_10     (0x62000000 + 65536 * 10 + 65535)
#define MIN_CHAR_HANZIKU_11     (0x62000000 + 65536 * 11)
#define MAX_CHAR_HANZIKU_11     (0x62000000 + 65536 * 11 + 65535)
#define MIN_CHAR_HANZIKU_12     (0x62000000 + 65536 * 12)
#define MAX_CHAR_HANZIKU_12     (0x62000000 + 65536 * 12 + 65535)
*/

Emchar decode_builtin_char (Lisp_Object charset, int code_point);

INLINE_HEADER Lisp_Object
get_ccs_octet_table (Lisp_Object table, Lisp_Object ccs, int code);
INLINE_HEADER Lisp_Object
get_ccs_octet_table (Lisp_Object table, Lisp_Object ccs, int code)
{
  int byte_offset = XCHARSET_BYTE_OFFSET (ccs);

  if (VECTORP (table))
    {
      int idx = code - byte_offset;

      if (idx < XVECTOR_LENGTH(table))
        return XVECTOR_DATA(table)[idx];
      else
        return Qunbound;
    }
  else
    return table;
}

INLINE_HEADER Lisp_Object
put_ccs_octet_table (Lisp_Object table, Lisp_Object ccs, int code,
                     Lisp_Object value);
INLINE_HEADER Lisp_Object
put_ccs_octet_table (Lisp_Object table, Lisp_Object ccs, int code,
                     Lisp_Object value)
{
  int byte_offset = XCHARSET_BYTE_OFFSET (ccs);
  int ccs_len = XCHARSET_BYTE_SIZE (ccs);

  if (VECTORP (table))
    {
      XVECTOR_DATA(table)[code - byte_offset] = value;
      return table;
    }
  else if (EQ (table, value))
    return table;
  else
    {
      table = make_vector (ccs_len, table);
      XVECTOR_DATA(table)[code - byte_offset] = value;
      return table;
    }
}

INLINE_HEADER void
decoding_table_put_char (Lisp_Object ccs,
                         int code_point, Lisp_Object character);
INLINE_HEADER void
decoding_table_put_char (Lisp_Object ccs,
                         int code_point, Lisp_Object character)
{
  Lisp_Object table1 = XCHARSET_DECODING_TABLE (ccs);
  int dim = XCHARSET_DIMENSION (ccs);

  if (dim == 1)
    XCHARSET_DECODING_TABLE (ccs)
      = put_ccs_octet_table (table1, ccs, code_point, character);
  else if (dim == 2)
    {
      Lisp_Object table2
        = get_ccs_octet_table (table1, ccs, (unsigned char)(code_point >> 8));

      table2 = put_ccs_octet_table (table2, ccs,
                                    (unsigned char)code_point, character);
      XCHARSET_DECODING_TABLE (ccs)
        = put_ccs_octet_table (table1, ccs,
                               (unsigned char)(code_point >> 8), table2);
    }
  else if (dim == 3)
    {
      Lisp_Object table2
        = get_ccs_octet_table (table1, ccs, (unsigned char)(code_point >> 16));
      Lisp_Object table3
        = get_ccs_octet_table (table2, ccs, (unsigned char)(code_point >>  8));

      table3 = put_ccs_octet_table (table3, ccs,
                                    (unsigned char)code_point, character);
      table2 = put_ccs_octet_table (table2, ccs,
                                    (unsigned char)(code_point >> 8), table3);
      XCHARSET_DECODING_TABLE (ccs)
        = put_ccs_octet_table (table1, ccs,
                               (unsigned char)(code_point >> 16), table2);
    }
  else /* if (dim == 4) */
    {
      Lisp_Object table2
        = get_ccs_octet_table (table1, ccs, (unsigned char)(code_point >> 24));
      Lisp_Object table3
        = get_ccs_octet_table (table2, ccs, (unsigned char)(code_point >> 16));
      Lisp_Object table4
        = get_ccs_octet_table (table3, ccs, (unsigned char)(code_point >>  8));

      table4 = put_ccs_octet_table (table4, ccs,
                                    (unsigned char)code_point, character);
      table3 = put_ccs_octet_table (table3, ccs,
                                    (unsigned char)(code_point >>  8), table4);
      table2 = put_ccs_octet_table (table2, ccs,
                                    (unsigned char)(code_point >> 16), table3);
      XCHARSET_DECODING_TABLE (ccs)
        = put_ccs_octet_table (table1, ccs,
                               (unsigned char)(code_point >> 24), table2);
    }
}

INLINE_HEADER void
decoding_table_remove_char (Lisp_Object ccs, int code_point);
INLINE_HEADER void
decoding_table_remove_char (Lisp_Object ccs, int code_point)
{
  decoding_table_put_char (ccs, code_point, Qunbound);
}

Emchar decode_defined_char (Lisp_Object charset, int code_point);

INLINE_HEADER Emchar DECODE_CHAR (Lisp_Object charset, int code_point);
INLINE_HEADER Emchar
DECODE_CHAR (Lisp_Object charset, int code_point)
{
  Emchar char_id = decode_defined_char (charset, code_point);

  if (char_id >= 0)
    return char_id;
  else if (XCHARSET_DIMENSION (charset) == 1)
    return decode_builtin_char (charset, code_point);
  else if (EQ (charset, Vcharset_chinese_big5_1))
    {
      unsigned int I
        = ((code_point >> 8) - 33) * (0xFF - 0xA1)
        + ((code_point & 0xFF) - 33);
      unsigned char b1 = I / (0xFF - 0xA1 + 0x7F - 0x40) + 0xA1;
      unsigned char b2 = I % (0xFF - 0xA1 + 0x7F - 0x40);

      b2 += b2 < 0x3F ? 0x40 : 0x62;
      return DECODE_CHAR (Vcharset_chinese_big5, (b1 << 8) | b2);
    }
  else if (EQ (charset, Vcharset_chinese_big5_2))
    {
      unsigned int I
        = ((code_point >> 8) - 33) * (0xFF - 0xA1)
        + ((code_point & 0xFF) - 33);
      unsigned char b1, b2;

      I += (0xFF - 0xA1 + 0x7F - 0x40) * (0xC9 - 0xA1);
      b1 = I / (0xFF - 0xA1 + 0x7F - 0x40) + 0xA1;
      b2 = I % (0xFF - 0xA1 + 0x7F - 0x40);
      b2 += b2 < 0x3F ? 0x40 : 0x62;
      return DECODE_CHAR (Vcharset_chinese_big5, (b1 << 8) | b2);
    }
  return decode_builtin_char (charset, code_point);
}

/* Return a character whose charset is CHARSET and position-codes
   are C1 and C2.  TYPE9N character ignores C2. */

INLINE_HEADER Emchar MAKE_CHAR (Lisp_Object charset, int c1, int c2);
INLINE_HEADER Emchar
MAKE_CHAR (Lisp_Object charset, int c1, int c2)
{
  if (XCHARSET_DIMENSION (charset) == 1)
    return DECODE_CHAR (charset, c1);
  else
    return DECODE_CHAR (charset, (c1 << 8) | c2);
}

extern Lisp_Object Vcharacter_attribute_table;

int encode_builtin_char_1 (Emchar c, Lisp_Object* charset);
int charset_code_point (Lisp_Object charset, Emchar ch, int defined_only);
int range_charset_code_point (Lisp_Object charset, Emchar ch);

extern Lisp_Object Vdefault_coded_charset_priority_list;
EXFUN (Ffind_charset, 1);

INLINE_HEADER int encode_char_1 (Emchar ch, Lisp_Object* charset);
INLINE_HEADER int
encode_char_1 (Emchar ch, Lisp_Object* charset)
{
  Lisp_Object charsets = Vdefault_coded_charset_priority_list;

  while (!NILP (charsets))
    {
      *charset = Ffind_charset (Fcar (charsets));
      if (!NILP (*charset))
        {
          int code_point = charset_code_point (*charset, ch, 0);

          if (code_point >= 0)
            return code_point;
        }
      charsets = Fcdr (charsets);             
    }
  
  /* otherwise --- maybe for bootstrap */
  return encode_builtin_char_1 (ch, charset);
}

#define ENCODE_CHAR(ch, charset)        encode_char_1 (ch, &(charset))

INLINE_HEADER void
breakup_char_1 (Emchar c, Lisp_Object *charset, int *c1, int *c2);
INLINE_HEADER void
breakup_char_1 (Emchar c, Lisp_Object *charset, int *c1, int *c2)
{
  int code_point = encode_char_1 (c, charset);

  if (code_point >= 0)
    {
      int dim = XCHARSET_DIMENSION (*charset);

       if (dim == 1)
         {
           *c1 = code_point;
           *c2 = 0;
         }
       else /* if (dim == 2) */
         {
           *c1 = code_point >> 8;
           *c2 = code_point & 255;
         }
    }
  else{
    *c1 = *c2 = 0;
  }
}

#define BREAKUP_CHAR(ch, charset, b1, b2) \
  breakup_char_1 (ch, &(charset), &(b1), &(b2))

INLINE_HEADER Lisp_Object CHAR_CHARSET (Emchar ch);
INLINE_HEADER Lisp_Object
CHAR_CHARSET (Emchar ch)
{
  Lisp_Object charset;
 
  ENCODE_CHAR (ch, charset);
  return charset;
}

#define CHAR_CHARSET_ID(c)  (XCHARSET_ID(CHAR_CHARSET(c)))
#define CHAR_COLUMNS(c)     (CHARSET_COLUMNS(XCHARSET(CHAR_CHARSET(c))))


typedef struct Charc
{
  Lisp_Object charset;
  int code_point;
} Charc;

INLINE_HEADER Charc CHAR_TO_CHARC (Emchar ch);
INLINE_HEADER Charc
CHAR_TO_CHARC (Emchar ch)
{
  Charc cc;

  cc.code_point = encode_char_1 (ch, &cc.charset);
  return cc;
}

#endif /* INCLUDED_char_ucs_h_ */