From: tomo Date: Thu, 17 Jun 1999 10:40:24 +0000 (+0000) Subject: New file. X-Git-Tag: r21-2-16-utf-2000-0_3-1~11 X-Git-Url: http://git.chise.org/gitweb/?a=commitdiff_plain;h=04d223198858890a78a0a040f57268d179a945ba;p=chise%2Fxemacs-chise.git- New file. --- diff --git a/src/character.h b/src/character.h new file mode 100644 index 0000000..a396638 --- /dev/null +++ b/src/character.h @@ -0,0 +1,612 @@ +/* Header for UCS-4 character representation. + Copyright (C) 1999 Electrotechnical Laboratory, JAPAN. + Licensed to the Free Software Foundation. + +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. */ + +/* Rewritten by MORIOKA Tomohiko . */ + +#ifndef _XEMACS_CHARACTER_H +#define _XEMACS_CHARACTER_H + +/************************************************************************/ +/* Definition of leading bytes */ +/************************************************************************/ + +#define MIN_LEADING_BYTE 0x80 +/* These need special treatment in a string and/or character */ +#define LEADING_BYTE_ASCII 0x8E /* Omitted in a buffer */ +#ifdef ENABLE_COMPOSITE_CHARS +#endif +#define LEADING_BYTE_COMPOSITE 0x80 /* for a composite character */ +#define LEADING_BYTE_CONTROL_1 0x8F /* represent normal 80-9F */ + +/** The following are for 1-byte characters in an official charset. **/ + +#define LEADING_BYTE_LATIN_ISO8859_1 0x81 /* Right half of ISO 8859-1 */ +#define LEADING_BYTE_LATIN_ISO8859_2 0x82 /* Right half of ISO 8859-2 */ +#define LEADING_BYTE_LATIN_ISO8859_3 0x83 /* Right half of ISO 8859-3 */ +#define LEADING_BYTE_LATIN_ISO8859_4 0x84 /* Right half of ISO 8859-4 */ +#define LEADING_BYTE_THAI_TIS620 0x85 /* TIS620-2533 */ +#define LEADING_BYTE_GREEK_ISO8859_7 0x86 /* Right half of ISO 8859-7 */ +#define LEADING_BYTE_ARABIC_ISO8859_6 0x87 /* Right half of ISO 8859-6 */ +#define LEADING_BYTE_HEBREW_ISO8859_8 0x88 /* Right half of ISO 8859-8 */ +#define LEADING_BYTE_KATAKANA_JISX0201 0x89 /* Right half of JIS X0201-1976 */ +#define LEADING_BYTE_LATIN_JISX0201 0x8A /* Left half of JIS X0201-1976 */ +#define LEADING_BYTE_CYRILLIC_ISO8859_5 0x8C /* Right half of ISO 8859-5 */ +#define LEADING_BYTE_LATIN_ISO8859_9 0x8D /* Right half of ISO 8859-9 */ + +#define MIN_LEADING_BYTE_OFFICIAL_1 LEADING_BYTE_LATIN_ISO8859_1 +#define MAX_LEADING_BYTE_OFFICIAL_1 LEADING_BYTE_LATIN_ISO8859_9 + +/** The following are for 2-byte characters in an official charset. **/ + +#define LEADING_BYTE_JAPANESE_JISX0208_1978 0x90/* Japanese JIS X0208-1978 */ +#define LEADING_BYTE_CHINESE_GB2312 0x91 /* Chinese Hanzi GB2312-1980 */ +#define LEADING_BYTE_JAPANESE_JISX0208 0x92 /* Japanese JIS X0208-1983 */ +#define LEADING_BYTE_KOREAN_KSC5601 0x93 /* Hangul KS C5601-1987 */ +#define LEADING_BYTE_JAPANESE_JISX0212 0x94 /* Japanese JIS X0212-1990 */ +#define LEADING_BYTE_CHINESE_CCITT_GB 0x95 /* CCITT Extended GB */ +#define LEADING_BYTE_CHINESE_BIG5_1 0x96 /* Big5 Level 1 */ +#define LEADING_BYTE_CHINESE_CNS11643_1 0x97 /* Chinese CNS11643 Set 1 */ +#define LEADING_BYTE_CHINESE_CNS11643_2 0x98 /* Chinese CNS11643 Set 2 */ +#define LEADING_BYTE_CHINESE_CNS11643_3 0x99 /* Chinese CNS11643 Set 3 */ +#define LEADING_BYTE_CHINESE_CNS11643_4 0x9A /* Chinese CNS11643 Set 4 */ +#define LEADING_BYTE_CHINESE_CNS11643_5 0x9B /* Chinese CNS11643 Set 5 */ +#define LEADING_BYTE_CHINESE_CNS11643_6 0x9C /* Chinese CNS11643 Set 6 */ +#define LEADING_BYTE_CHINESE_CNS11643_7 0x9D /* Chinese CNS11643 Set 7 */ +#define LEADING_BYTE_CHINESE_BIG5_2 0x9D /* Big5 Level 2 */ +#define LEADING_BYTE_KOREAN_KPS9566 0x9E /* DPRK Hangul KPS 9566-1997 */ + +#define MIN_LEADING_BYTE_OFFICIAL_2 LEADING_BYTE_JAPANESE_JISX0208_1978 +#define MAX_LEADING_BYTE_OFFICIAL_2 LEADING_BYTE_CHINESE_BIG5_2 + +/** The following are for 1- and 2-byte characters in a private charset. **/ + +#define PRE_LEADING_BYTE_PRIVATE_1 0x9E /* 1-byte char-set */ +#define PRE_LEADING_BYTE_PRIVATE_2 0x9F /* 2-byte char-set */ + +#define MIN_LEADING_BYTE_PRIVATE_1 0xA0 +#define MAX_LEADING_BYTE_PRIVATE_1 0xEF +#define MIN_LEADING_BYTE_PRIVATE_2 0xF0 +#define MAX_LEADING_BYTE_PRIVATE_2 0xFF + +#define NUM_LEADING_BYTES 128 + + +/************************************************************************/ +/* Operations on leading bytes */ +/************************************************************************/ + +/* Is this leading byte for a private charset? */ + +#define LEADING_BYTE_PRIVATE_P(lb) ((lb) >= MIN_LEADING_BYTE_PRIVATE_1) + +/* Is this a prefix for a private leading byte? */ + +INLINE int LEADING_BYTE_PREFIX_P (unsigned char lb); +INLINE int +LEADING_BYTE_PREFIX_P (unsigned char lb) +{ + return (lb == PRE_LEADING_BYTE_PRIVATE_1 || + lb == PRE_LEADING_BYTE_PRIVATE_2); +} + +/* Given a private leading byte, return the leading byte prefix stored + in a string */ + +#define PRIVATE_LEADING_BYTE_PREFIX(lb) \ + ((lb) < MIN_LEADING_BYTE_PRIVATE_2 ? \ + PRE_LEADING_BYTE_PRIVATE_1 : \ + PRE_LEADING_BYTE_PRIVATE_2) + + +/************************************************************************/ +/* Operations on individual bytes */ +/* of any format */ +/************************************************************************/ + +/* Argument `c' should be (unsigned int) or (unsigned char). */ +/* Note that SP and DEL are not included. */ + +#define BYTE_ASCII_P(c) ((c) < 0x80) +#define BYTE_C0_P(c) ((c) < 0x20) +/* Do some forced casting just to make *sure* things are gotten right. */ +#define BYTE_C1_P(c) ((unsigned int) ((unsigned int) (c) - 0x80) < 0x20) + + +/************************************************************************/ +/* Operations on individual bytes */ +/* in a Mule-formatted string */ +/************************************************************************/ + +/* Does this byte represent the first byte of a character? */ + +#ifdef UTF2000 +INLINE int +BUFBYTE_FIRST_BYTE_P(Bufbyte c) +{ + return (c <= 0x7f) || (0xc0 <= c); +} +#else +#define BUFBYTE_FIRST_BYTE_P(c) ((c) < 0xA0) +#endif + +/* Does this byte represent the first byte of a multi-byte character? */ + +#define BUFBYTE_LEADING_BYTE_P(c) BYTE_C1_P (c) + + +/************************************************************************/ +/* Information about a particular character set */ +/************************************************************************/ + +struct Lisp_Charset +{ + struct lcrecord_header header; + + int id; + Lisp_Object name; + Lisp_Object doc_string, registry, short_name, 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 bytes (1 - 4) required in the internal representation + for characters in this character set. This is *not* the + same as the dimension of the character set). */ + unsigned int rep_bytes; + + /* 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; + + /* Type of this character set (94, 96, 94x94, 96x96) */ + unsigned int type; + + /* Number of bytes used in encoding of this character set (1 or 2) */ + unsigned int dimension; + + /* Number of chars in each dimension (usually 94 or 96) */ + unsigned int chars; + + /* Which half of font to be used to display this character set */ + unsigned int graphic; +}; + +DECLARE_LRECORD (charset, struct Lisp_Charset); +#define XCHARSET(x) XRECORD (x, charset, struct Lisp_Charset) +#define XSETCHARSET(x, p) XSETRECORD (x, p, charset) +#define CHARSETP(x) RECORDP (x, charset) +#define GC_CHARSETP(x) GC_RECORDP (x, charset) +#define CHECK_CHARSET(x) CHECK_RECORD (x, charset) +#define CONCHECK_CHARSET(x) CONCHECK_RECORD (x, charset) + +#define CHARSET_TYPE_94 0 /* This charset includes 94 characters. */ +#define CHARSET_TYPE_96 1 /* This charset includes 96 characters. */ +#define CHARSET_TYPE_94X94 2 /* This charset includes 94x94 characters. */ +#define CHARSET_TYPE_96X96 3 /* This charset includes 96x96 characters. */ + +#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) ((Bufbyte)(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_REP_BYTES(cs) ((cs)->rep_bytes) +#define CHARSET_COLUMNS(cs) ((cs)->columns) +#define CHARSET_GRAPHIC(cs) ((cs)->graphic) +#define CHARSET_TYPE(cs) ((cs)->type) +#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_PRIVATE_P(cs) LEADING_BYTE_PRIVATE_P (CHARSET_LEADING_BYTE (cs)) + +#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_REP_BYTES(cs) CHARSET_REP_BYTES (XCHARSET (cs)) +#define XCHARSET_COLUMNS(cs) CHARSET_COLUMNS (XCHARSET (cs)) +#define XCHARSET_GRAPHIC(cs) CHARSET_GRAPHIC (XCHARSET (cs)) +#define XCHARSET_TYPE(cs) CHARSET_TYPE (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_PRIVATE_P(cs) CHARSET_PRIVATE_P (XCHARSET (cs)) +#define XCHARSET_REVERSE_DIRECTION_CHARSET(cs) \ + CHARSET_REVERSE_DIRECTION_CHARSET (XCHARSET (cs)) + +/* Table of charsets indexed by (leading byte - 128). */ +extern Lisp_Object charset_by_leading_byte[128]; + +/* Table of charsets indexed by type/final-byte/direction. */ +extern Lisp_Object charset_by_attributes[4][128][2]; + +/* Table of number of bytes in the string representation of a character + indexed by the first byte of that representation. + + This value can be derived other ways -- e.g. something like + + (BYTE_ASCII_P (first_byte) ? 1 : + XCHARSET_REP_BYTES (CHARSET_BY_LEADING_BYTE (first_byte))) + + but it's faster this way. */ +extern Bytecount rep_bytes_by_first_byte[0xA0]; + +#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 Lisp_Object CHARSET_BY_LEADING_BYTE (int lb); +INLINE Lisp_Object +CHARSET_BY_LEADING_BYTE (int lb) +{ + assert (lb >= 0x80 && lb <= 0xFF); + return charset_by_leading_byte[lb - 128]; +} + +#else + +#define CHARSET_BY_LEADING_BYTE(lb) (charset_by_leading_byte[(lb) - 128]) + +#endif + +#define CHARSET_BY_ATTRIBUTES(type, final, dir) \ + (charset_by_attributes[type][final][dir]) + +#ifdef UTF2000 +INLINE int REP_BYTES_BY_FIRST_BYTE (int fb); +INLINE int +REP_BYTES_BY_FIRST_BYTE (int fb) +{ + if ( fb >= 0xfc ) + return 6; + else if ( fb >= 0xf8 ) + return 5; + else if ( fb >= 0xf0 ) + return 4; + else if ( fb >= 0xe0 ) + return 3; + else if ( fb >= 0xc0 ) + return 2; + else + return 1; +} +#else /* MULE */ +#ifdef ERROR_CHECK_TYPECHECK + +/* Number of bytes in the string representation of a character */ +INLINE int REP_BYTES_BY_FIRST_BYTE (int fb); +INLINE int +REP_BYTES_BY_FIRST_BYTE (int fb) +{ + assert (fb >= 0 && fb < 0xA0); + return rep_bytes_by_first_byte[fb]; +} + +#else +#define REP_BYTES_BY_FIRST_BYTE(fb) (rep_bytes_by_first_byte[fb]) +#endif +#endif /* end MULE */ + + +/************************************************************************/ +/* Dealing with characters */ +/************************************************************************/ + +/* Is this character represented by more than one byte in a string? */ + +#define CHAR_MULTIBYTE_P(c) ((c) >= 0x80) + +#define CHAR_ASCII_P(c) (!CHAR_MULTIBYTE_P (c)) + +/* The bit fields of character are divided into 3 parts: + FIELD1(5bits):FIELD2(7bits):FIELD3(7bits) */ + +#define CHAR_FIELD1_MASK (0x7F << 14) +#define CHAR_FIELD2_MASK (0x7F << 7) +#define CHAR_FIELD3_MASK 0x7F + +#define MIN_CHAR_GREEK 0x0370 +#define MAX_CHAR_GREEK 0x03CF + +#define MIN_CHAR_CYRILLIC 0x0400 +#define MAX_CHAR_CYRILLIC 0x045F + +#define MIN_CHAR_HEBREW 0x0590 +#define MAX_CHAR_HEBREW 0x05EF + +#define MIN_CHAR_THAI 0x0E00 +#define MAX_CHAR_THAI 0x0E5F + +#define MIN_CHAR_HALFWIDTH_KATAKANA 0xFF60 +#define MAX_CHAR_HALFWIDTH_KATAKANA 0xFF9F + +/* Macros to access each field of a character code of C. */ + +#define CHAR_FIELD1(c) (((c) & CHAR_FIELD1_MASK) >> 14) +#define CHAR_FIELD2_INTERNAL(c) (((c) & CHAR_FIELD2_MASK) >> 7) +#define CHAR_FIELD3_INTERNAL(c) ((c) & CHAR_FIELD3_MASK) + +/* Field 1, if non-zero, usually holds a leading byte for a + dimension-2 charset. Field 2, if non-zero, usually holds a leading + byte for a dimension-1 charset. */ + +/* Converting between field values and leading bytes. */ + +#define FIELD2_TO_OFFICIAL_LEADING_BYTE 0x80 +#define FIELD2_TO_PRIVATE_LEADING_BYTE 0x80 + +#define FIELD1_TO_PRIVATE_LEADING_BYTE 0xc0 +#define FIELD1_TO_OFFICIAL_LEADING_BYTE 0x50 + +INLINE Emchar +CHAR_FIELD2 (Emchar c) +{ + if( (MIN_CHAR_GREEK <= c) && (c <= MAX_CHAR_GREEK) ) + return LEADING_BYTE_GREEK_ISO8859_7 + - FIELD2_TO_OFFICIAL_LEADING_BYTE; + else if( (MIN_CHAR_CYRILLIC <= c) && (c <= MAX_CHAR_CYRILLIC) ) + return LEADING_BYTE_CYRILLIC_ISO8859_5 + - FIELD2_TO_OFFICIAL_LEADING_BYTE; + else if( (MIN_CHAR_HEBREW <= c) && (c <= MAX_CHAR_HEBREW) ) + return LEADING_BYTE_HEBREW_ISO8859_8 + - FIELD2_TO_OFFICIAL_LEADING_BYTE; + else if( (MIN_CHAR_THAI <= c) && (c <= MAX_CHAR_THAI) ) + return LEADING_BYTE_THAI_TIS620 + - FIELD2_TO_OFFICIAL_LEADING_BYTE; + else if( (MIN_CHAR_HALFWIDTH_KATAKANA <= c) + && (c <= MAX_CHAR_HALFWIDTH_KATAKANA) ) + return LEADING_BYTE_KATAKANA_JISX0201 + - FIELD2_TO_OFFICIAL_LEADING_BYTE; + else + return CHAR_FIELD2_INTERNAL(c); +} + +INLINE Emchar +CHAR_FIELD3 (Emchar c) +{ + if( (MIN_CHAR_GREEK <= c) && (c <= MAX_CHAR_GREEK) ) + return c - MIN_CHAR_GREEK + 0x20; + else if( (MIN_CHAR_CYRILLIC <= c) && (c <= MAX_CHAR_CYRILLIC) ) + return c - MIN_CHAR_CYRILLIC + 0x20; + else if( (MIN_CHAR_HEBREW <= c) && (c <= MAX_CHAR_HEBREW) ) + return c - MIN_CHAR_HEBREW + 0x20; + else if( (MIN_CHAR_THAI <= c) && (c <= MAX_CHAR_THAI) ) + return c - MIN_CHAR_THAI + 0x20; + else if( (MIN_CHAR_HALFWIDTH_KATAKANA <= c) + && (c <= MAX_CHAR_HALFWIDTH_KATAKANA) ) + return c - MIN_CHAR_HALFWIDTH_KATAKANA + 0x20; + else + return CHAR_FIELD3_INTERNAL(c); +} + +/* Minimum and maximum allowed values for the fields. */ + +#define MIN_CHAR_FIELD2_OFFICIAL \ + (MIN_LEADING_BYTE_OFFICIAL_1 - FIELD2_TO_OFFICIAL_LEADING_BYTE) +#define MAX_CHAR_FIELD2_OFFICIAL \ + (MAX_LEADING_BYTE_OFFICIAL_1 - FIELD2_TO_OFFICIAL_LEADING_BYTE) + +#define MIN_CHAR_FIELD1_OFFICIAL \ + (MIN_LEADING_BYTE_OFFICIAL_2 - FIELD1_TO_OFFICIAL_LEADING_BYTE) +#define MAX_CHAR_FIELD1_OFFICIAL \ + (MAX_LEADING_BYTE_OFFICIAL_2 - FIELD1_TO_OFFICIAL_LEADING_BYTE) + +#define MIN_CHAR_FIELD2_PRIVATE \ + (MIN_LEADING_BYTE_PRIVATE_1 - FIELD2_TO_PRIVATE_LEADING_BYTE) +#define MAX_CHAR_FIELD2_PRIVATE \ + (MAX_LEADING_BYTE_PRIVATE_1 - FIELD2_TO_PRIVATE_LEADING_BYTE) + +#define MIN_CHAR_FIELD1_PRIVATE \ + (MIN_LEADING_BYTE_PRIVATE_2 - FIELD1_TO_PRIVATE_LEADING_BYTE) +#define MAX_CHAR_FIELD1_PRIVATE \ + (MAX_LEADING_BYTE_PRIVATE_2 - FIELD1_TO_PRIVATE_LEADING_BYTE) + +/* Minimum character code of each character. */ + +#define MULE_CHAR_PRIVATE_OFFSET (0xe0 << 16) + +#define MIN_CHAR_OFFICIAL_TYPE9N \ + (MULE_CHAR_PRIVATE_OFFSET | (MIN_CHAR_FIELD2_OFFICIAL << 7)) +#define MIN_CHAR_PRIVATE_TYPE9N \ + (MULE_CHAR_PRIVATE_OFFSET | (MIN_CHAR_FIELD2_PRIVATE << 7)) +#define MIN_CHAR_PRIVATE_TYPE9NX9N \ + (MULE_CHAR_PRIVATE_OFFSET | (MIN_CHAR_FIELD1_PRIVATE << 14)) +#define MIN_CHAR_OFFICIAL_TYPE9NX9N \ + (MULE_CHAR_PRIVATE_OFFSET | (MIN_CHAR_FIELD1_OFFICIAL << 14)) +#define MIN_CHAR_COMPOSITION \ + (MULE_CHAR_PRIVATE_OFFSET | (0x7f << 14)) + +/* Leading byte of a character. + + NOTE: This takes advantage of the fact that + FIELD2_TO_OFFICIAL_LEADING_BYTE and + FIELD2_TO_PRIVATE_LEADING_BYTE are the same. + */ + +INLINE Bufbyte CHAR_LEADING_BYTE (Emchar c); +INLINE Bufbyte +CHAR_LEADING_BYTE (Emchar c) +{ + if (CHAR_ASCII_P (c)) + return LEADING_BYTE_ASCII; + else if (c < 0xA0) + return LEADING_BYTE_CONTROL_1; + else if (c <= 0xff) + return LEADING_BYTE_LATIN_ISO8859_1; + else if (c <= MAX_CHAR_GREEK) + return LEADING_BYTE_GREEK_ISO8859_7; + else if (c <= MAX_CHAR_CYRILLIC) + return LEADING_BYTE_CYRILLIC_ISO8859_5; + else if (c <= MAX_CHAR_HEBREW) + return LEADING_BYTE_HEBREW_ISO8859_8; + else if (c <= MAX_CHAR_THAI) + return LEADING_BYTE_THAI_TIS620; + else if (c <= MAX_CHAR_HALFWIDTH_KATAKANA) + return LEADING_BYTE_KATAKANA_JISX0201; + else if (c < MIN_CHAR_PRIVATE_TYPE9NX9N) + return CHAR_FIELD2 (c) + FIELD2_TO_OFFICIAL_LEADING_BYTE; + else if (c < MIN_CHAR_OFFICIAL_TYPE9NX9N) + return CHAR_FIELD1 (c) + FIELD1_TO_PRIVATE_LEADING_BYTE; + else if (c < MIN_CHAR_COMPOSITION) + return CHAR_FIELD1 (c) + FIELD1_TO_OFFICIAL_LEADING_BYTE; + else + { +#ifdef ENABLE_COMPOSITE_CHARS + return LEADING_BYTE_COMPOSITE; +#else + abort(); + return 0; +#endif /* ENABLE_COMPOSITE_CHARS */ + } +} + +#define CHAR_CHARSET(c) CHARSET_BY_LEADING_BYTE (CHAR_LEADING_BYTE (c)) + +/* Return a character whose charset is CHARSET and position-codes + are C1 and C2. TYPE9N character ignores C2. + + NOTE: This takes advantage of the fact that + FIELD2_TO_OFFICIAL_LEADING_BYTE and + FIELD2_TO_PRIVATE_LEADING_BYTE are the same. + */ + +INLINE Emchar MAKE_CHAR (Lisp_Object charset, int c1, int c2); +INLINE Emchar +MAKE_CHAR (Lisp_Object charset, int c1, int c2) +{ + if (EQ (charset, Vcharset_ascii)) + return c1; + else if (EQ (charset, Vcharset_control_1)) + return c1 | 0x80; + else if (EQ (charset, Vcharset_latin_iso8859_1)) + return c1 | 0x80; + else if (EQ (charset, Vcharset_greek_iso8859_7)) + return c1 + MIN_CHAR_GREEK - 0x20; + else if (EQ (charset, Vcharset_cyrillic_iso8859_5)) + return c1 + MIN_CHAR_CYRILLIC - 0x20; + else if (EQ (charset, Vcharset_hebrew_iso8859_8)) + return c1 + MIN_CHAR_HEBREW - 0x20; + else if (EQ (charset, Vcharset_thai_tis620)) + return c1 + MIN_CHAR_THAI - 0x20; + else if (EQ (charset, Vcharset_katakana_jisx0201)) + if (c1 < 0x60) + return c1 + MIN_CHAR_HALFWIDTH_KATAKANA - 0x20; + else + return 32; +#ifdef ENABLE_COMPOSITE_CHARS + else if (EQ (charset, Vcharset_composite)) + return (0x1F << 14) | ((c1) << 7) | (c2); +#endif + else if (XCHARSET_DIMENSION (charset) == 1) + return MULE_CHAR_PRIVATE_OFFSET + | ((XCHARSET_LEADING_BYTE (charset) - + FIELD2_TO_OFFICIAL_LEADING_BYTE) << 7) | (c1); + else if (!XCHARSET_PRIVATE_P (charset)) + return MULE_CHAR_PRIVATE_OFFSET + | ((XCHARSET_LEADING_BYTE (charset) - + FIELD1_TO_OFFICIAL_LEADING_BYTE) << 14) | ((c1) << 7) | (c2); + else + return MULE_CHAR_PRIVATE_OFFSET + | ((XCHARSET_LEADING_BYTE (charset) - + FIELD1_TO_PRIVATE_LEADING_BYTE) << 14) | ((c1) << 7) | (c2); +} + +/* The charset of character C is set to CHARSET, and the + position-codes of C are set to C1 and C2. C2 of TYPE9N character + is 0. */ + +/* BREAKUP_CHAR_1_UNSAFE assumes that the charset has already been + calculated, and just computes c1 and c2. + + BREAKUP_CHAR also computes and stores the charset. */ + +#define BREAKUP_CHAR_1_UNSAFE(c, charset, c1, c2) \ + XCHARSET_DIMENSION (charset) == 1 \ + ? ((c1) = CHAR_FIELD3 (c), (c2) = 0) \ + : ((c1) = CHAR_FIELD2 (c), \ + (c2) = CHAR_FIELD3 (c)) + +INLINE void breakup_char_1 (Emchar c, Lisp_Object *charset, int *c1, int *c2); +INLINE void +breakup_char_1 (Emchar c, Lisp_Object *charset, int *c1, int *c2) +{ + *charset = CHAR_CHARSET (c); + BREAKUP_CHAR_1_UNSAFE (c, *charset, *c1, *c2); +} + +#define BREAKUP_CHAR(c, charset, c1, c2) \ + breakup_char_1 (c, &(charset), &(c1), &(c2)) + + + +#ifdef ENABLE_COMPOSITE_CHARS +/************************************************************************/ +/* Composite characters */ +/************************************************************************/ + +Emchar lookup_composite_char (Bufbyte *str, int len); +Lisp_Object composite_char_string (Emchar ch); +#endif /* ENABLE_COMPOSITE_CHARS */ + + +/************************************************************************/ +/* Exported functions */ +/************************************************************************/ + +EXFUN (Ffind_charset, 1); +EXFUN (Fget_charset, 1); + +extern Lisp_Object Vcharset_chinese_big5_1; +extern Lisp_Object Vcharset_chinese_big5_2; +extern Lisp_Object Vcharset_japanese_jisx0208; + +Emchar Lstream_get_emchar_1 (Lstream *stream, int first_char); +int Lstream_fput_emchar (Lstream *stream, Emchar ch); +void Lstream_funget_emchar (Lstream *stream, Emchar ch); + +int copy_internal_to_external (CONST Bufbyte *internal, Bytecount len, + unsigned char *external); +Bytecount copy_external_to_internal (CONST unsigned char *external, + int len, Bufbyte *internal); + +#endif /* _XEMACS_CHARACTER_H */