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|
/* ========================================================================
* Copyright 2008-2010 Mark Crispin
* ========================================================================
*/
/*
* Program: UTF-8 routines
*
* Author: Mark Crispin
*
* Date: 11 June 1997
* Last Edited: 28 May 2010
*
* Previous versions of this file were
*
* Copyright 1988-2008 University of Washington
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
*/
#include <stdio.h>
#include <ctype.h>
#include "c-client.h"
�
/* *** IMPORTANT ***
*
* There is a very important difference between "character set" and "charset",
* and the comments in this file reflect these differences. A "character set"
* (also known as "coded character set") is a mapping between codepoints and
* characters. A "charset" is as defined in MIME, and incorporates one or more
* coded character sets in a character encoding scheme. See RFC 2130 for more
* details.
*/
static ucs4width_t ucs4width = NIL;
/* Character set conversion tables */
#include "iso_8859.c" /* 8-bit single-byte coded graphic */
#include "koi8_r.c" /* Cyrillic - Russia */
#include "koi8_u.c" /* Cyrillic - Ukraine */
#include "tis_620.c" /* Thai */
#include "viscii.c" /* Vietnamese */
#include "windows.c" /* Windows */
#include "ibm.c" /* IBM */
#include "gb_2312.c" /* Chinese (PRC) - simplified */
#include "gb_12345.c" /* Chinese (PRC) - traditional */
#include "jis_0208.c" /* Japanese - basic */
#include "jis_0212.c" /* Japanese - supplementary */
#include "ksc_5601.c" /* Korean */
#include "big5.c" /* Taiwanese (ROC) - industrial standard */
#include "cns11643.c" /* Taiwanese (ROC) - national standard */
#include "widths.c" /* Unicode character widths */
#include "tmap.c" /* Unicode titlecase mapping */
#include "decomtab.c" /* Unicode decomposions */
�
/* EUC parameters */
#ifdef GBTOUNICODE /* PRC simplified Chinese */
static const struct utf8_eucparam gb_param = {
BASE_GB2312_KU,BASE_GB2312_TEN,MAX_GB2312_KU,MAX_GB2312_TEN,
(void *) gb2312tab};
#endif
#ifdef GB12345TOUNICODE /* PRC traditional Chinese */
static const struct utf8_eucparam gbt_param = {
BASE_GB12345_KU,BASE_GB12345_TEN,MAX_GB12345_KU,MAX_GB12345_TEN,
(void *) gb12345tab};
#endif
#ifdef BIG5TOUNICODE /* ROC traditional Chinese */
static const struct utf8_eucparam big5_param[] = {
{BASE_BIG5_KU,BASE_BIG5_TEN_0,MAX_BIG5_KU,MAX_BIG5_TEN_0,(void *) big5tab},
{BASE_BIG5_KU,BASE_BIG5_TEN_1,MAX_BIG5_KU,MAX_BIG5_TEN_1,NIL}
};
#endif
#ifdef JISTOUNICODE /* Japanese */
static const struct utf8_eucparam jis_param[] = {
{BASE_JIS0208_KU,BASE_JIS0208_TEN,MAX_JIS0208_KU,MAX_JIS0208_TEN,
(void *) jis0208tab},
{MIN_KANA_8,0,MAX_KANA_8,0,(void *) KANA_8},
#ifdef JIS0212TOUNICODE /* Japanese extended */
{BASE_JIS0212_KU,BASE_JIS0212_TEN,MAX_JIS0212_KU,MAX_JIS0212_TEN,
(void *) jis0212tab}
#else
{0,0,0,0,NIL}
#endif
};
#endif
#ifdef KSCTOUNICODE /* Korean */
static const struct utf8_eucparam ksc_param = {
BASE_KSC5601_KU,BASE_KSC5601_TEN,MAX_KSC5601_KU,MAX_KSC5601_TEN,
(void *) ksc5601tab};
#endif
�
/* List of supported charsets */
static const CHARSET utf8_csvalid[] = {
{"US-ASCII",CT_ASCII,CF_PRIMARY | CF_DISPLAY | CF_POSTING,
NIL,NIL,NIL},
{"UTF-8",CT_UTF8,CF_PRIMARY | CF_DISPLAY | CF_POSTING,
NIL,SC_UNICODE,NIL},
{"UTF-7",CT_UTF7,CF_PRIMARY | CF_POSTING | CF_UNSUPRT,
NIL,SC_UNICODE,"UTF-8"},
{"ISO-8859-1",CT_1BYTE0,CF_PRIMARY | CF_DISPLAY | CF_POSTING,
NIL,SC_LATIN_1,NIL},
{"ISO-8859-2",CT_1BYTE,CF_PRIMARY | CF_DISPLAY | CF_POSTING,
(void *) iso8859_2tab,SC_LATIN_2,NIL},
{"ISO-8859-3",CT_1BYTE,CF_PRIMARY | CF_DISPLAY | CF_POSTING,
(void *) iso8859_3tab,SC_LATIN_3,NIL},
{"ISO-8859-4",CT_1BYTE,CF_PRIMARY | CF_DISPLAY | CF_POSTING,
(void *) iso8859_4tab,SC_LATIN_4,NIL},
{"ISO-8859-5",CT_1BYTE,CF_PRIMARY | CF_DISPLAY | CF_POSTING,
(void *) iso8859_5tab,SC_CYRILLIC,"KOI8-R"},
{"ISO-8859-6",CT_1BYTE,CF_PRIMARY | CF_DISPLAY | CF_POSTING,
(void *) iso8859_6tab,SC_ARABIC,NIL},
{"ISO-8859-7",CT_1BYTE,CF_PRIMARY | CF_DISPLAY | CF_POSTING,
(void *) iso8859_7tab,SC_GREEK,NIL},
{"ISO-8859-8",CT_1BYTE,CF_PRIMARY | CF_DISPLAY | CF_POSTING,
(void *) iso8859_8tab,SC_HEBREW,NIL},
{"ISO-8859-9",CT_1BYTE,CF_PRIMARY | CF_DISPLAY | CF_POSTING,
(void *) iso8859_9tab,SC_LATIN_5,NIL},
{"ISO-8859-10",CT_1BYTE,CF_PRIMARY | CF_DISPLAY | CF_POSTING,
(void *) iso8859_10tab,SC_LATIN_6,NIL},
{"ISO-8859-11",CT_1BYTE,CF_PRIMARY | CF_DISPLAY | CF_POSTING,
(void *) iso8859_11tab,SC_THAI,NIL},
#if 0 /* ISO 8859-12 reserved for ISCII(?) */
{"ISO-8859-12",CT_1BYTE,CF_PRIMARY | CF_DISPLAY | CF_POSTING,
(void *) iso8859_12tab,NIL,NIL},
#endif
{"ISO-8859-13",CT_1BYTE,CF_PRIMARY | CF_DISPLAY | CF_POSTING,
(void *) iso8859_13tab,SC_LATIN_7,NIL},
{"ISO-8859-14",CT_1BYTE,CF_PRIMARY | CF_DISPLAY | CF_POSTING,
(void *) iso8859_14tab,SC_LATIN_8,NIL},
{"ISO-8859-15",CT_1BYTE,CF_PRIMARY | CF_DISPLAY | CF_POSTING,
(void *) iso8859_15tab,SC_LATIN_9,NIL},
{"ISO-8859-16",CT_1BYTE,CF_PRIMARY | CF_DISPLAY | CF_POSTING,
(void *) iso8859_16tab,SC_LATIN_10,NIL},
{"KOI8-R",CT_1BYTE,CF_PRIMARY | CF_DISPLAY | CF_POSTING,
(void *) koi8rtab,SC_CYRILLIC,NIL},
{"KOI8-U",CT_1BYTE,CF_PRIMARY | CF_DISPLAY | CF_POSTING,
(void *) koi8utab,SC_CYRILLIC | SC_UKRANIAN,NIL},
{"KOI8-RU",CT_1BYTE,CF_DISPLAY,
(void *) koi8utab,SC_CYRILLIC | SC_UKRANIAN,"KOI8-U"},
{"TIS-620",CT_1BYTE,CF_PRIMARY | CF_DISPLAY | CF_POSTING,
(void *) tis620tab,SC_THAI,"ISO-8859-11"},
{"VISCII",CT_1BYTE8,CF_PRIMARY | CF_DISPLAY | CF_POSTING,
(void *) visciitab,SC_VIETNAMESE,NIL},
�
#ifdef GBTOUNICODE
{"GBK",CT_DBYTE,CF_PRIMARY | CF_DISPLAY | CF_POSTING,
(void *) &gb_param,SC_CHINESE_SIMPLIFIED,NIL},
{"GB2312",CT_DBYTE,CF_PRIMARY | CF_DISPLAY | CF_POSTING,
(void *) &gb_param,SC_CHINESE_SIMPLIFIED,"GBK"},
{"CN-GB",CT_DBYTE,CF_DISPLAY,
(void *) &gb_param,SC_CHINESE_SIMPLIFIED,"GBK"},
#ifdef CNS1TOUNICODE
{"ISO-2022-CN",CT_2022,CF_PRIMARY | CF_UNSUPRT,
NIL,SC_CHINESE_SIMPLIFIED | SC_CHINESE_TRADITIONAL,
NIL},
#endif
#endif
#ifdef GB12345TOUNICODE
{"CN-GB-12345",CT_DBYTE,CF_PRIMARY | CF_DISPLAY,
(void *) &gbt_param,SC_CHINESE_TRADITIONAL,"BIG5"},
#endif
#ifdef BIG5TOUNICODE
{"BIG5",CT_DBYTE2,CF_PRIMARY | CF_DISPLAY | CF_POSTING,
(void *) big5_param,SC_CHINESE_TRADITIONAL,NIL},
{"CN-BIG5",CT_DBYTE2,CF_DISPLAY,
(void *) big5_param,SC_CHINESE_TRADITIONAL,"BIG5"},
{"BIG-5",CT_DBYTE2,CF_DISPLAY,
(void *) big5_param,SC_CHINESE_TRADITIONAL,"BIG5"},
#endif
#ifdef JISTOUNICODE
{"ISO-2022-JP",CT_2022,CF_PRIMARY | CF_DISPLAY | CF_POSTING,
NIL,SC_JAPANESE,NIL},
{"EUC-JP",CT_EUC,CF_PRIMARY | CF_DISPLAY,
(void *) jis_param,SC_JAPANESE,"ISO-2022-JP"},
{"SHIFT_JIS",CT_SJIS,CF_PRIMARY | CF_DISPLAY,
NIL,SC_JAPANESE,"ISO-2022-JP"},
{"SHIFT-JIS",CT_SJIS,CF_PRIMARY | CF_DISPLAY,
NIL,SC_JAPANESE,"ISO-2022-JP"},
#ifdef JIS0212TOUNICODE
{"ISO-2022-JP-1",CT_2022,CF_UNSUPRT,
NIL,SC_JAPANESE,"ISO-2022-JP"},
#ifdef GBTOUNICODE
#ifdef KSCTOUNICODE
{"ISO-2022-JP-2",CT_2022,CF_UNSUPRT,
NIL,
SC_LATIN_1 | SC_LATIN_2 | SC_LATIN_3 | SC_LATIN_4 | SC_LATIN_5 |
SC_LATIN_6 | SC_LATIN_7 | SC_LATIN_8 | SC_LATIN_9 | SC_LATIN_10 |
SC_ARABIC | SC_CYRILLIC | SC_GREEK | SC_HEBREW | SC_THAI |
SC_VIETNAMESE | SC_CHINESE_SIMPLIFIED | SC_JAPANESE | SC_KOREAN
#ifdef CNS1TOUNICODE
| SC_CHINESE_TRADITIONAL
#endif
,"UTF-8"},
#endif
#endif
#endif
#endif
�
#ifdef KSCTOUNICODE
{"ISO-2022-KR",CT_2022,CF_PRIMARY | CF_DISPLAY | CF_UNSUPRT,
NIL,SC_KOREAN,"EUC-KR"},
{"EUC-KR",CT_DBYTE,CF_PRIMARY | CF_DISPLAY | CF_POSTING,
(void *) &ksc_param,SC_KOREAN,NIL},
{"KSC5601",CT_DBYTE,CF_PRIMARY | CF_DISPLAY,
(void *) &ksc_param,SC_KOREAN,"EUC-KR"},
{"KSC_5601",CT_DBYTE,CF_PRIMARY | CF_DISPLAY,
(void *) &ksc_param,SC_KOREAN,"EUC-KR"},
{"KS_C_5601-1987",CT_DBYTE,CF_DISPLAY,
(void *) &ksc_param,SC_KOREAN,"EUC-KR"},
{"KS_C_5601-1989",CT_DBYTE,CF_DISPLAY,
(void *) &ksc_param,SC_KOREAN,"EUC-KR"},
{"KS_C_5601-1992",CT_DBYTE,CF_DISPLAY,
(void *) &ksc_param,SC_KOREAN,"EUC-KR"},
{"KS_C_5601-1997",CT_DBYTE,CF_DISPLAY,
(void *) &ksc_param,SC_KOREAN,"EUC-KR"},
#endif
�
/* deep sigh */
{"WINDOWS-874",CT_1BYTE,CF_PRIMARY | CF_DISPLAY,
(void *) windows_874tab,SC_THAI,"ISO-8859-11"},
{"CP874",CT_1BYTE,CF_DISPLAY,
(void *) windows_874tab,SC_THAI,"ISO-8859-11"},
#ifdef GBTOUNICODE
{"WINDOWS-936",CT_DBYTE,CF_PRIMARY | CF_DISPLAY,
(void *) &gb_param,SC_CHINESE_SIMPLIFIED,"GBK"},
{"CP936",CT_DBYTE,CF_DISPLAY,
(void *) &gb_param,SC_CHINESE_SIMPLIFIED,"GBK"},
#endif
#ifdef KSCTOUNICODE
{"WINDOWS-949",CT_DBYTE,CF_PRIMARY | CF_DISPLAY,
(void *) &ksc_param,SC_KOREAN,"EUC-KR"},
{"CP949",CT_DBYTE,CF_DISPLAY,
(void *) &ksc_param,SC_KOREAN,"EUC-KR"},
{"X-WINDOWS-949",CT_DBYTE,CF_PRIMARY | CF_DISPLAY,
(void *) &ksc_param,SC_KOREAN,"EUC-KR"},
#endif
{"WINDOWS-1250",CT_1BYTE,CF_PRIMARY | CF_DISPLAY,
(void *) windows_1250tab,SC_LATIN_2,"ISO-8859-2"},
{"CP1250",CT_1BYTE,CF_DISPLAY,
(void *) windows_1250tab,SC_LATIN_2,"ISO-8859-2"},
{"WINDOWS-1251",CT_1BYTE,CF_PRIMARY | CF_DISPLAY | CF_POSTING,
(void *) windows_1251tab,SC_CYRILLIC,"KOI8-R"},
{"CP1251",CT_1BYTE,CF_DISPLAY,
(void *) windows_1251tab,SC_CYRILLIC,"KOI8-R"},
{"WINDOWS-1252",CT_1BYTE,CF_PRIMARY | CF_DISPLAY,
(void *) windows_1252tab,SC_LATIN_1,"ISO-8859-1"},
{"CP1252",CT_1BYTE,CF_DISPLAY,
(void *) windows_1252tab,SC_LATIN_1,"ISO-8859-1"},
{"WINDOWS-1253",CT_1BYTE,CF_PRIMARY | CF_DISPLAY,
(void *) windows_1253tab,SC_GREEK,"ISO-8859-7"},
{"CP1253",CT_1BYTE,CF_DISPLAY,
(void *) windows_1253tab,SC_GREEK,"ISO-8859-7"},
{"WINDOWS-1254",CT_1BYTE,CF_PRIMARY | CF_DISPLAY,
(void *) windows_1254tab,SC_LATIN_5,"ISO-8859-9"},
{"CP1254",CT_1BYTE,CF_DISPLAY,
(void *) windows_1254tab,SC_LATIN_5,"ISO-8859-9"},
{"WINDOWS-1255",CT_1BYTE,CF_PRIMARY | CF_DISPLAY,
(void *) windows_1255tab,SC_HEBREW,"ISO-8859-8"},
{"CP1255",CT_1BYTE,CF_DISPLAY,
(void *) windows_1255tab,SC_HEBREW,"ISO-8859-8"},
{"WINDOWS-1256",CT_1BYTE,CF_PRIMARY | CF_DISPLAY,
(void *) windows_1256tab,SC_ARABIC,"ISO-8859-6"},
{"CP1256",CT_1BYTE,CF_DISPLAY,
(void *) windows_1256tab,SC_ARABIC,"ISO-8859-6"},
{"WINDOWS-1257",CT_1BYTE,CF_PRIMARY | CF_DISPLAY,
(void *) windows_1257tab,SC_LATIN_7,"ISO-8859-13"},
{"CP1257",CT_1BYTE,CF_DISPLAY,
(void *) windows_1257tab,SC_LATIN_7,"ISO-8859-13"},
{"WINDOWS-1258",CT_1BYTE,CF_PRIMARY | CF_DISPLAY,
(void *) windows_1258tab,SC_VIETNAMESE,"VISCII"},
{"CP1258",CT_1BYTE,CF_DISPLAY,
(void *) windows_1258tab,SC_VIETNAMESE,"VISCII"},
�
/* deeper sigh */
{"IBM367",CT_ASCII,CF_PRIMARY | CF_DISPLAY,
NIL,NIL,"US-ASCII"},
{"IBM437",CT_1BYTE,CF_PRIMARY | CF_DISPLAY,
(void *) ibm_437tab,SC_LATIN_1,"ISO-8859-1"},
{"IBM737",CT_1BYTE,CF_PRIMARY | CF_DISPLAY,
(void *) ibm_737tab,SC_GREEK,"ISO-8859-7"},
{"IBM775",CT_1BYTE,CF_PRIMARY | CF_DISPLAY,
(void *) ibm_775tab,SC_LATIN_7,"ISO-8859-13"},
{"IBM850",CT_1BYTE,CF_PRIMARY | CF_DISPLAY,
(void *) ibm_850tab,SC_LATIN_1,"ISO-8859-1"},
{"IBM852",CT_1BYTE,CF_PRIMARY | CF_DISPLAY,
(void *) ibm_852tab,SC_LATIN_2,"ISO-8859-2"},
{"IBM855",CT_1BYTE,CF_PRIMARY | CF_DISPLAY,
(void *) ibm_855tab,SC_CYRILLIC,"ISO-8859-5"},
{"IBM857",CT_1BYTE,CF_PRIMARY | CF_DISPLAY,
(void *) ibm_857tab,SC_LATIN_5,"ISO-8859-9"},
{"IBM860",CT_1BYTE,CF_PRIMARY | CF_DISPLAY,
(void *) ibm_860tab,SC_LATIN_1,"ISO-8859-1"},
{"IBM861",CT_1BYTE,CF_PRIMARY | CF_DISPLAY,
(void *) ibm_861tab,SC_LATIN_6,"ISO-8859-10"},
{"IBM862",CT_1BYTE,CF_PRIMARY | CF_DISPLAY,
(void *) ibm_862tab,SC_HEBREW,"ISO-8859-8"},
{"IBM863",CT_1BYTE,CF_PRIMARY | CF_DISPLAY,
(void *) ibm_863tab,SC_LATIN_1,"ISO-8859-1"},
{"IBM864",CT_1BYTE,CF_PRIMARY | CF_DISPLAY,
(void *) ibm_864tab,SC_ARABIC,"ISO-8859-6"},
{"IBM865",CT_1BYTE,CF_PRIMARY | CF_DISPLAY,
(void *) ibm_865tab,SC_LATIN_6,"ISO-8859-10"},
{"IBM866",CT_1BYTE,CF_PRIMARY | CF_DISPLAY,
(void *) ibm_866tab,SC_CYRILLIC,"KOI8-R"},
{"IBM869",CT_1BYTE,CF_PRIMARY | CF_DISPLAY,
(void *) ibm_869tab,SC_GREEK,"ISO-8859-7"},
{"IBM874",CT_1BYTE,CF_PRIMARY | CF_DISPLAY,
(void *) ibm_874tab,SC_THAI,"ISO-8859-11"},
/* deepest sigh */
{"ANSI_X3.4-1968",CT_ASCII,CF_DISPLAY,
NIL,NIL,"US-ASCII"},
{"UNICODE-1-1-UTF-7",CT_UTF7,CF_UNSUPRT,
NIL,SC_UNICODE,"UTF-8"},
/* these should never appear in email */
{"UCS-2",CT_UCS2,CF_PRIMARY | CF_DISPLAY | CF_NOEMAIL,
NIL,SC_UNICODE,"UTF-8"},
{"UCS-4",CT_UCS4,CF_PRIMARY | CF_DISPLAY | CF_NOEMAIL,
NIL,SC_UNICODE,"UTF-8"},
{"UTF-16",CT_UTF16,CF_PRIMARY | CF_DISPLAY | CF_NOEMAIL,
NIL,SC_UNICODE,"UTF-8"},
NIL
};
�
/* Non-Unicode Script table */
static const SCRIPT utf8_scvalid[] = {
{"Arabic",NIL,SC_ARABIC},
{"Chinese Simplified","China, Singapore",SC_CHINESE_SIMPLIFIED},
{"Chinese Traditional","Taiwan, Hong Kong, Macao",SC_CHINESE_TRADITIONAL},
{"Cyrillic",NIL,SC_CYRILLIC},
{"Cyrillic Ukrainian",NIL,SC_UKRANIAN},
{"Greek",NIL,SC_GREEK},
{"Hebrew",NIL,SC_HEBREW},
{"Japanese",NIL,SC_JAPANESE},
{"Korean",NIL,SC_KOREAN},
{"Latin-1","Western Europe",SC_LATIN_1},
{"Latin-2","Eastern Europe",SC_LATIN_2},
{"Latin-3","Southern Europe",SC_LATIN_3},
{"Latin-4","Northern Europe",SC_LATIN_4},
{"Latin-5","Turkish",SC_LATIN_5},
{"Latin-6","Nordic",SC_LATIN_6},
{"Latin-7","Baltic",SC_LATIN_7},
{"Latin-8","Celtic",SC_LATIN_8},
{"Latin-9","Euro",SC_LATIN_9},
{"Latin-10","Balkan",SC_LATIN_10},
{"Thai",NIL,SC_THAI},
{"Vietnamese",NIL,SC_VIETNAMESE},
NIL
};
�
/* Look up script name or return entire table
* Accepts: script name or NIL
* Returns: pointer to script table entry or NIL if unknown
*/
SCRIPT *utf8_script (char *script)
{
unsigned long i;
if (!script) return (SCRIPT *) &utf8_scvalid[0];
else if (*script && (strlen (script) < 128))
for (i = 0; utf8_scvalid[i].name; i++)
if (!compare_cstring (script,utf8_scvalid[i].name))
return (SCRIPT *) &utf8_scvalid[i];
return NIL; /* failed */
}
/* Look up charset name or return entire table
* Accepts: charset name or NIL
* Returns: charset table entry or NIL if unknown
*/
const CHARSET *utf8_charset (char *charset)
{
unsigned long i;
if (!charset) return (CHARSET *) &utf8_csvalid[0];
else if (*charset && (strlen (charset) < 128))
for (i = 0; utf8_csvalid[i].name; i++)
if (!compare_cstring (charset,utf8_csvalid[i].name))
return (CHARSET *) &utf8_csvalid[i];
return NIL; /* failed */
}
�
/* Validate charset and generate error message if invalid
* Accepts: bad character set
* Returns: NIL if good charset, else error message string
*/
#define BADCSS "[BADCHARSET ("
#define BADCSE ")] Unknown charset: "
char *utf8_badcharset (char *charset)
{
char *msg = NIL;
if (!utf8_charset (charset)) {
char *s,*t;
unsigned long i,j;
/* calculate size of header, trailer, and bad
* charset plus charset names */
for (i = 0, j = sizeof (BADCSS) + sizeof (BADCSE) + strlen (charset) - 2;
utf8_csvalid[i].name; i++)
j += strlen (utf8_csvalid[i].name) + 1;
/* not built right */
if (!i) fatal ("No valid charsets!");
/* header */
for (s = msg = (char *) fs_get (j), t = BADCSS; *t; *s++ = *t++);
/* each charset */
for (i = 0; utf8_csvalid[i].name; *s++ = ' ', i++)
for (t = utf8_csvalid[i].name; *t; *s++ = *t++);
/* back over last space, trailer */
for (t = BADCSE, --s; *t; *s++ = *t++);
/* finally bogus charset */
for (t = charset; *t; *s++ = *t++);
*s++ = '\0'; /* finally tie off string */
if (s != (msg + j)) fatal ("charset msg botch");
}
return msg;
}
�
/* Convert charset labelled sized text to UTF-8
* Accepts: source sized text
* charset
* pointer to returned sized text if non-NIL
* flags
* Returns: T if successful, NIL if failure
*/
long utf8_text (SIZEDTEXT *text,char *charset,SIZEDTEXT *ret,long flags)
{
ucs4cn_t cv = (flags & U8T_CASECANON) ? ucs4_titlecase : NIL;
ucs4de_t de = (flags & U8T_DECOMPOSE) ? ucs4_decompose_recursive : NIL;
const CHARSET *cs = (charset && *charset) ?
utf8_charset (charset) : utf8_infercharset (text);
if (cs) return (text && ret) ? utf8_text_cs (text,cs,ret,cv,de) : LONGT;
if (ret) { /* no conversion possible */
ret->data = text->data; /* so return source */
ret->size = text->size;
}
return NIL; /* failure */
}
/* Operations used in converting data */
#define UTF8_COUNT_BMP(count,c,cv,de) { \
void *more = NIL; \
if (cv) c = (*cv) (c); \
if (de) c = (*de) (c,&more); \
do count += UTF8_SIZE_BMP(c); \
while (more && (c = (*de) (U8G_ERROR,&more)));\
}
#define UTF8_WRITE_BMP(b,c,cv,de) { \
void *more = NIL; \
if (cv) c = (*cv) (c); \
if (de) c = (*de) (c,&more); \
do UTF8_PUT_BMP (b,c) \
while (more && (c = (*de) (U8G_ERROR,&more)));\
}
#define UTF8_COUNT(count,c,cv,de) { \
void *more = NIL; \
if (cv) c = (*cv) (c); \
if (de) c = (*de) (c,&more); \
do count += utf8_size (c); \
while (more && (c = (*de) (U8G_ERROR,&more)));\
}
#define UTF8_WRITE(b,c,cv,de) { \
void *more = NIL; \
if (cv) c = (*cv) (c); \
if (de) c = (*de) (c,&more); \
do b = utf8_put (b,c); \
while (more && (c = (*de) (U8G_ERROR,&more)));\
}
�
/* Convert sized text to UTF-8 given CHARSET block
* Accepts: source sized text
* CHARSET block
* pointer to returned sized text
* canonicalization function
* decomposition function
* Returns: T if successful, NIL if failure
*/
long utf8_text_cs (SIZEDTEXT *text,const CHARSET *cs,SIZEDTEXT *ret,
ucs4cn_t cv,ucs4de_t de)
{
ret->data = text->data; /* default to source */
ret->size = text->size;
switch (cs->type) { /* convert if type known */
case CT_ASCII: /* 7-bit ASCII no table */
case CT_UTF8: /* variable UTF-8 encoded Unicode no table */
if (cv || de) utf8_text_utf8 (text,ret,cv,de);
break;
case CT_1BYTE0: /* 1 byte no table */
utf8_text_1byte0 (text,ret,cv,de);
break;
case CT_1BYTE: /* 1 byte ASCII + table 0x80-0xff */
utf8_text_1byte (text,ret,cs->tab,cv,de);
break;
case CT_1BYTE8: /* 1 byte table 0x00 - 0xff */
utf8_text_1byte8 (text,ret,cs->tab,cv,de);
break;
case CT_EUC: /* 2 byte ASCII + utf8_eucparam base/CS2/CS3 */
utf8_text_euc (text,ret,cs->tab,cv,de);
break;
case CT_DBYTE: /* 2 byte ASCII + utf8_eucparam */
utf8_text_dbyte (text,ret,cs->tab,cv,de);
break;
case CT_DBYTE2: /* 2 byte ASCII + utf8_eucparam plane1/2 */
utf8_text_dbyte2 (text,ret,cs->tab,cv,de);
break;
case CT_UTF7: /* variable UTF-7 encoded Unicode no table */
utf8_text_utf7 (text,ret,cv,de);
break;
case CT_UCS2: /* 2 byte 16-bit Unicode no table */
utf8_text_ucs2 (text,ret,cv,de);
break;
case CT_UCS4: /* 4 byte 32-bit Unicode no table */
utf8_text_ucs4 (text,ret,cv,de);
break;
case CT_UTF16: /* variable UTF-16 encoded Unicode no table */
utf8_text_utf16 (text,ret,cv,de);
break;
case CT_2022: /* variable ISO-2022 encoded no table*/
utf8_text_2022 (text,ret,cv,de);
break;
case CT_SJIS: /* 2 byte Shift-JIS encoded JIS no table */
utf8_text_sjis (text,ret,cv,de);
break;
default: /* unknown character set type */
return NIL;
}
return LONGT; /* return success */
}
�
/* Reverse mapping routines
*
* These routines only support character sets, not all possible charsets. In
* particular, they do not support any Unicode encodings or ISO 2022.
*
* As a special dispensation, utf8_cstext() and utf8_cstocstext() support
* support ISO-2022-JP if EUC-JP can be reverse mapped; and utf8_rmaptext()
* will generated ISO-2022-JP using an EUC-JP rmap if flagged to do so.
*
* No attempt is made to map "equivalent" Unicode characters or Unicode
* characters that have the same glyph; nor is there any attempt to handle
* combining characters or otherwise do any stringprep. Maybe later.
*/
/* Convert UTF-8 sized text to charset
* Accepts: source sized text
* destination charset
* pointer to returned sized text
* substitute character if not in cs, else NIL to return failure
* Returns: T if successful, NIL if failure
*/
long utf8_cstext (SIZEDTEXT *text,char *charset,SIZEDTEXT *ret,
unsigned long errch)
{
short iso2022jp = !compare_cstring (charset,"ISO-2022-JP");
unsigned short *rmap = utf8_rmap (iso2022jp ? "EUC-JP" : charset);
return rmap ? utf8_rmaptext (text,rmap,ret,errch,iso2022jp) : NIL;
}
�
/* Convert charset labelled sized text to another charset
* Accepts: source sized text
* source charset
* pointer to returned sized text
* destination charset
* substitute character if not in dest cs, else NIL to return failure
* Returns: T if successful, NIL if failure
*
* This routine has the same restricts as utf8_cstext().
*/
long utf8_cstocstext (SIZEDTEXT *src,char *sc,SIZEDTEXT *dst,char *dc,
unsigned long errch)
{
SIZEDTEXT utf8;
const CHARSET *scs,*dcs;
unsigned short *rmap;
long ret = NIL;
long iso2022jp;
/* lookup charsets and reverse map */
if ((dc && (dcs = utf8_charset (dc))) &&
(rmap = (iso2022jp = ((dcs->type == CT_2022) &&
!compare_cstring (dcs->name,"ISO-2022-JP"))) ?
utf8_rmap ("EUC-JP") : utf8_rmap_cs (dcs)) &&
(scs = (sc && *sc) ? utf8_charset (sc) : utf8_infercharset (src))) {
/* init temporary buffer */
memset (&utf8,NIL,sizeof (SIZEDTEXT));
/* source cs equivalent to dest cs? */
if ((scs->type == dcs->type) && (scs->tab == dcs->tab)) {
dst->data = src->data; /* yes, just copy pointers */
dst->size = src->size;
ret = LONGT;
}
/* otherwise do the conversion */
else ret = (utf8_text_cs (src,scs,&utf8,NIL,NIL) &&
utf8_rmaptext (&utf8,rmap,dst,errch,iso2022jp));
/* flush temporary buffer */
if (utf8.data && (utf8.data != src->data) && (utf8.data != dst->data))
fs_give ((void **) &utf8.data);
}
return ret;
}
�
/* Cached rmap */
static const CHARSET *currmapcs = NIL;
static unsigned short *currmap = NIL;
/* Cache and return map for UTF-8 -> character set
* Accepts: character set name
* Returns: cached map if character set found, else NIL
*/
unsigned short *utf8_rmap (char *charset)
{
return (currmapcs && !compare_cstring (charset,currmapcs->name)) ? currmap :
utf8_rmap_cs (utf8_charset (charset));
}
/* Cache and return map for UTF-8 -> character set given CHARSET block
* Accepts: CHARSET block
* Returns: cached map if character set found, else NIL
*/
unsigned short *utf8_rmap_cs (const CHARSET *cs)
{
unsigned short *ret = NIL;
if (!cs); /* have charset? */
else if (cs == currmapcs) ret = currmap;
else if ((ret = utf8_rmap_gen (cs,currmap)) != NULL) {
currmapcs = cs;
currmap = ret;
}
return ret;
}
�
/* Return map for UTF-8 -> character set given CHARSET block
* Accepts: CHARSET block
* old map to recycle
* Returns: map if character set found, else NIL
*/
unsigned short *utf8_rmap_gen (const CHARSET *cs,unsigned short *oldmap)
{
unsigned short u,*tab,*rmap;
unsigned int i,m,ku,ten;
struct utf8_eucparam *param,*p2;
switch (cs->type) { /* is a character set? */
case CT_ASCII: /* 7-bit ASCII no table */
case CT_1BYTE0: /* 1 byte no table */
case CT_1BYTE: /* 1 byte ASCII + table 0x80-0xff */
case CT_1BYTE8: /* 1 byte table 0x00 - 0xff */
case CT_EUC: /* 2 byte ASCII + utf8_eucparam base/CS2/CS3 */
case CT_DBYTE: /* 2 byte ASCII + utf8_eucparam */
case CT_DBYTE2: /* 2 byte ASCII + utf8_eucparam plane1/2 */
case CT_SJIS: /* 2 byte Shift-JIS */
rmap = oldmap ? oldmap : /* recycle old map if supplied else make new */
(unsigned short *) fs_get (65536 * sizeof (unsigned short));
/* initialize table for ASCII */
for (i = 0; i < 128; i++) rmap[i] = (unsigned short) i;
/* populate remainder of table with NOCHAR */
#define NOCHARBYTE (NOCHAR & 0xff)
#if NOCHAR - ((NOCHARBYTE << 8) | NOCHARBYTE)
while (i < 65536) rmap[i++] = NOCHAR;
#else
memset (rmap + 128,NOCHARBYTE,(65536 - 128) * sizeof (unsigned short));
#endif
break;
default: /* unsupported charset type */
rmap = NIL; /* no map possible */
}
if (rmap) { /* have a map? */
switch (cs->type) { /* additional reverse map actions */
case CT_1BYTE0: /* 1 byte no table */
for (i = 128; i < 256; i++) rmap[i] = (unsigned short) i;
break;
case CT_1BYTE: /* 1 byte ASCII + table 0x80-0xff */
for (tab = (unsigned short *) cs->tab,i = 128; i < 256; i++)
if (tab[i & BITS7] != UBOGON) rmap[tab[i & BITS7]] = (unsigned short)i;
break;
case CT_1BYTE8: /* 1 byte table 0x00 - 0xff */
for (tab = (unsigned short *) cs->tab,i = 0; i < 256; i++)
if (tab[i] != UBOGON) rmap[tab[i]] = (unsigned short) i;
break;
case CT_EUC: /* 2 byte ASCII + utf8_eucparam base/CS2/CS3 */
for (param = (struct utf8_eucparam *) cs->tab,
tab = (unsigned short *) param->tab, ku = 0;
ku < param->max_ku; ku++)
for (ten = 0; ten < param->max_ten; ten++)
if ((u = tab[(ku * param->max_ten) + ten]) != UBOGON)
rmap[u] = ((ku + param->base_ku) << 8) +
(ten + param->base_ten) + 0x8080;
break;
�
case CT_DBYTE: /* 2 byte ASCII + utf8_eucparam */
for (param = (struct utf8_eucparam *) cs->tab,
tab = (unsigned short *) param->tab, ku = 0;
ku < param->max_ku; ku++)
for (ten = 0; ten < param->max_ten; ten++)
if ((u = tab[(ku * param->max_ten) + ten]) != UBOGON)
rmap[u] = ((ku + param->base_ku) << 8) + (ten + param->base_ten);
break;
case CT_DBYTE2: /* 2 byte ASCII + utf8_eucparam plane1/2 */
param = (struct utf8_eucparam *) cs->tab;
p2 = param + 1; /* plane 2 parameters */
/* only ten parameters should differ */
if ((param->base_ku != p2->base_ku) || (param->max_ku != p2->max_ku))
fatal ("ku definition error for CT_DBYTE2 charset");
/* total codepoints in each ku */
m = param->max_ten + p2->max_ten;
tab = (unsigned short *) param->tab;
for (ku = 0; ku < param->max_ku; ku++) {
for (ten = 0; ten < param->max_ten; ten++)
if ((u = tab[(ku * m) + ten]) != UBOGON)
rmap[u] = ((ku + param->base_ku) << 8) + (ten + param->base_ten);
for (ten = 0; ten < p2->max_ten; ten++)
if ((u = tab[(ku * m) + param->max_ten + ten]) != UBOGON)
rmap[u] = ((ku + param->base_ku) << 8) + (ten + p2->base_ten);
}
break;
case CT_SJIS: /* 2 byte Shift-JIS */
for (ku = 0; ku < MAX_JIS0208_KU; ku++)
for (ten = 0; ten < MAX_JIS0208_TEN; ten++)
if ((u = jis0208tab[ku][ten]) != UBOGON) {
int sku = ku + BASE_JIS0208_KU;
int sten = ten + BASE_JIS0208_TEN;
rmap[u] = ((((sku + 1) >> 1) + ((sku < 95) ? 112 : 176)) << 8) +
sten + ((sku % 2) ? ((sten > 95) ? 32 : 31) : 126);
}
/* JIS Roman */
rmap[UCS2_YEN] = JISROMAN_YEN;
rmap[UCS2_OVERLINE] = JISROMAN_OVERLINE;
/* JIS hankaku katakana */
for (u = 0; u < (MAX_KANA_8 - MIN_KANA_8); u++)
rmap[UCS2_KATAKANA + u] = MIN_KANA_8 + u;
break;
}
/* hack: map NBSP to SP if otherwise no map */
if (rmap[0x00a0] == NOCHAR) rmap[0x00a0] = rmap[0x0020];
}
return rmap; /* return map */
}
�
/* Convert UTF-8 sized text to charset using rmap
* Accepts: source sized text
* conversion rmap
* pointer to returned sized text
* substitute character if not in rmap, else NIL to return failure
* ISO-2022-JP conversion flag
* Returns T if successful, NIL if failure
*
* This routine doesn't try to convert to all possible charsets; in particular
* it doesn't support other Unicode encodings or any ISO 2022 other than
* ISO-2022-JP.
*/
long utf8_rmaptext (SIZEDTEXT *text,unsigned short *rmap,SIZEDTEXT *ret,
unsigned long errch,long iso2022jp)
{
unsigned long i,u,c;
/* get size of buffer */
if ((i = utf8_rmapsize (text,rmap,errch,iso2022jp)) != 0L) {
unsigned char *s = text->data;
unsigned char *t = ret->data = (unsigned char *) fs_get (i);
ret->size = i - 1; /* number of octets in destination buffer */
/* start non-zero ISO-2022-JP state at 1 */
if (iso2022jp) iso2022jp = 1;
/* convert string, ignore BOM */
for (i = text->size; i;) if ((u = utf8_get (&s,&i)) != UCS2_BOM) {
/* substitute error character for NOCHAR */
if ((u & U8GM_NONBMP) || ((c = rmap[u]) == NOCHAR)) c = errch;
switch (iso2022jp) { /* depends upon ISO 2022 mode */
case 0: /* ISO 2022 not in effect */
/* two-byte character */
if (c > 0xff) *t++ = (unsigned char) (c >> 8);
/* single-byte or low-byte of two-byte */
*t++ = (unsigned char) (c & 0xff);
break;
case 1: /* ISO 2022 Roman */
/* <ch> */
if (c < 0x80) *t++ = (unsigned char) c;
else { /* JIS character */
*t++ = I2C_ESC; /* ESC $ B <hi> <lo> */
*t++ = I2C_MULTI;
*t++ = I2CS_94x94_JIS_NEW;
*t++ = (unsigned char) (c >> 8) & 0x7f;
*t++ = (unsigned char) c & 0x7f;
iso2022jp = 2; /* shift to ISO 2022 JIS */
}
break;
case 2: /* ISO 2022 JIS */
if (c > 0x7f) { /* <hi> <lo> */
*t++ = (unsigned char) (c >> 8) & 0x7f;
*t++ = (unsigned char) c & 0x7f;
}
else { /* ASCII character */
*t++ = I2C_ESC; /* ESC ( J <ch> */
*t++ = I2C_G0_94;
*t++ = I2CS_94_JIS_ROMAN;
*t++ = (unsigned char) c;
iso2022jp = 1; /* shift to ISO 2022 Roman */
}
break;
}
}
if (iso2022jp == 2) { /* ISO-2022-JP string must end in Roman */
*t++ = I2C_ESC; /* ESC ( J */
*t++ = I2C_G0_94;
*t++ = I2CS_94_JIS_ROMAN;
}
*t++ = NIL; /* tie off returned data */
return LONGT; /* return success */
}
ret->data = NIL;
ret->size = 0;
return NIL; /* failure */
}
�
/* Calculate size of convertsion of UTF-8 sized text to charset using rmap
* Accepts: source sized text
* conversion rmap
* pointer to returned sized text
* substitute character if not in rmap, else NIL to return failure
* ISO-2022-JP conversion flag
* Returns size+1 if successful, NIL if failure
*
* This routine doesn't try to handle to all possible charsets; in particular
* it doesn't support other Unicode encodings or any ISO 2022 other than
* ISO-2022-JP.
*/
unsigned long utf8_rmapsize (SIZEDTEXT *text,unsigned short *rmap,
unsigned long errch,long iso2022jp)
{
unsigned long i,u,c;
unsigned long ret = 1; /* terminating NUL */
unsigned char *s = text->data;
if (iso2022jp) iso2022jp = 1; /* start non-zero ISO-2022-JP state at 1 */
for (i = text->size; i;) if ((u = utf8_get (&s,&i)) != UCS2_BOM) {
if ((u & U8GM_NONBMP) || (((c = rmap[u]) == NOCHAR) && !(c = errch)))
return NIL; /* not in BMP, or NOCHAR and no err char */
switch (iso2022jp) { /* depends upon ISO 2022 mode */
case 0: /* ISO 2022 not in effect */
ret += (c > 0xff) ? 2 : 1;
break;
case 1: /* ISO 2022 Roman */
if (c < 0x80) ret += 1; /* <ch> */
else { /* JIS character */
ret += 5; /* ESC $ B <hi> <lo> */
iso2022jp = 2; /* shift to ISO 2022 JIS */
}
break;
case 2: /* ISO 2022 JIS */
if (c > 0x7f) ret += 2; /* <hi> <lo> */
else { /* ASCII character */
ret += 4; /* ESC ( J <ch> */
iso2022jp = 1; /* shift to ISO 2022 Roman */
}
break;
}
}
if (iso2022jp == 2) { /* ISO-2022-JP string must end in Roman */
ret += 3; /* ESC ( J */
iso2022jp = 1; /* reset state to Roman */
}
return ret;
}
�
/* Convert UCS-4 to charset using rmap
* Accepts: source UCS-4 character(s)
* number of UCS-4 characters
* conversion rmap
* pointer to returned sized text
* substitute character if not in rmap, else NIL to return failure
* Returns T if successful, NIL if failure
*
* Currently only supports BMP characters, and does not support ISO-2022
*/
long ucs4_rmaptext (unsigned long *ucs4,unsigned long len,unsigned short *rmap,
SIZEDTEXT *ret,unsigned long errch)
{
long size = ucs4_rmaplen (ucs4,len,rmap,errch);
return (size >= 0) ? /* build in newly-created buffer */
ucs4_rmapbuf (ret->data = (unsigned char *) fs_get ((ret->size = size) +1),
ucs4,len,rmap,errch) : NIL;
}
�
/* Return size of UCS-4 string converted to other CS via rmap
* Accepts: source UCS-4 character(s)
* number of UCS-4 characters
* conversion rmap
* substitute character if not in rmap, else NIL to return failure
* Returns: length if success, negative if failure (no-convert)
*/
long ucs4_rmaplen (unsigned long *ucs4,unsigned long len,unsigned short *rmap,
unsigned long errch)
{
long ret;
unsigned long i,u,c;
/* count non-BOM characters */
for (ret = 0,i = 0; i < len; ++i) if ((u = ucs4[i]) != UCS2_BOM) {
if ((u & U8GM_NONBMP) || (((c = rmap[u]) == NOCHAR) && !(c = errch)))
return -1; /* not in BMP, or NOCHAR and no err char? */
ret += (c > 0xff) ? 2 : 1;
}
return ret;
}
/* Stuff buffer with UCS-4 string converted to other CS via rmap
* Accepts: destination buffer
* source UCS-4 character(s)
* number of UCS-4 characters
* conversion rmap
* substitute character if not in rmap, else NIL to return failure
* Returns: T, always
*/
long ucs4_rmapbuf (unsigned char *t,unsigned long *ucs4,unsigned long len,
unsigned short *rmap,unsigned long errch)
{
unsigned long i,u,c;
/* convert non-BOM characters */
for (i = 0; i < len; ++i) if ((u = ucs4[i]) != UCS2_BOM) {
/* substitute error character for NOCHAR */
if ((u & U8GM_NONBMP) || ((c = rmap[u]) == NOCHAR)) c = errch;
/* two-byte character? */
if (c > 0xff) *t++ = (unsigned char) (c >> 8);
/* single-byte or low-byte of two-byte */
*t++ = (unsigned char) (c & 0xff);
}
*t++ = NIL; /* tie off returned data */
return LONGT;
}
�
/* Return UCS-4 Unicode character from UTF-8 string
* Accepts: pointer to string
* remaining octets in string
* Returns: UCS-4 character with pointer and count updated
* or error code with pointer and count unchanged
*/
unsigned long utf8_get (unsigned char **s,unsigned long *i)
{
unsigned char *t = *s;
unsigned long j = *i;
/* decode raw UTF-8 string */
unsigned long ret = utf8_get_raw (&t,&j);
if (ret & U8G_ERROR); /* invalid raw UTF-8 decoding? */
/* no, is it surrogate? */
else if ((ret >= UTF16_SURR) && (ret <= UTF16_MAXSURR)) ret = U8G_SURROGA;
/* or in non-Unicode ISO 10646 space? */
else if (ret > UCS4_MAXUNICODE) ret = U8G_NOTUNIC;
else {
*s = t; /* all is well, update pointer */
*i = j; /* and counter */
}
return ret; /* return value */
}
�
/* Return raw (including non-Unicode) UCS-4 character from UTF-8 string
* Accepts: pointer to string
* remaining octets in string
* Returns: UCS-4 character with pointer and count updated
* or error code with pointer and count unchanged
*/
unsigned long utf8_get_raw (unsigned char **s,unsigned long *i)
{
unsigned char c,c1;
unsigned char *t = *s;
unsigned long j = *i;
unsigned long ret = U8G_NOTUTF8;
int more = 0;
do { /* make sure have source octets available */
if (!j--) return more ? U8G_ENDSTRI : U8G_ENDSTRG;
/* UTF-8 continuation? */
else if (((c = *t++) > 0x7f) && (c < 0xc0)) {
/* continuation when not in progress */
if (!more) return U8G_BADCONT;
--more; /* found a continuation octet */
ret <<= 6; /* shift current value by 6 bits */
ret |= c & 0x3f; /* merge continuation octet */
}
/* incomplete UTF-8 character */
else if (more) return U8G_INCMPLT;
else { /* start of sequence */
c1 = j ? *t : 0xbf; /* assume valid continuation if incomplete */
if (c < 0x80) ret = c; /* U+0000 - U+007f */
else if (c < 0xc2); /* c0 and c1 never valid */
else if (c < 0xe0) { /* U+0080 - U+07ff */
c &= 0x1f;
if (c1 >= 0x80) more = 1;
}
else if (c == 0xe0) { /* U+0800 - U+0fff */
c &= 0x0f;
if (c1 >= 0xa0) more = 2;
}
else if (c < 0xed) { /* U+1000 - U+cfff */
c &= 0x0f;
if (c1 >= 0x80) more = 2;
}
else if (c == 0xed) { /* U+d000 - U+d7ff */
c &= 0x0f;
if (j == 0 || ((c1 >= 0x80) && (c1 <= 0x9f))) more = 2;
}
else if (c < 0xf0) { /* U+e000 - U+ffff */
c &= 0x0f;
if (c1 >= 0x80) more = 2;
}
else if (c == 0xf0) { /* U+10000 - U+3ffff */
c &= 0x07;
if (c1 >= 0x90) more = 3;
}
else if (c < 0xf3) { /* U+40000 - U+fffff */
c &= 0x07;
if (c1 >= 0x80) more = 3;
}
#if 0
else if (c == 0xf4) { /* U+100000 - U+10ffff */
c &= 0x07;
if (((c1 >= 0x80) && (c1 <= 0x8f))) more = 3;
}
#else
else if (c < 0xf8) { /* U+100000 - U+10ffff (and 110000 - 1fffff) */
c &= 0x07;
if ((c1 >= 0x80)) more = 3;
}
else if (c < 0xfc) { /* ISO 10646 200000 - 3ffffff */
c &= 0x03;
if ((c1 >= 0x80)) more = 4;
}
else if (c < 0xfe) { /* ISO 10646 4000000 - 7fffffff */
c &= 0x01;
if ((c1 >= 0x80)) more = 5;
}
#endif
/* fe and ff never valid */
if (more) { /* multi-octet, make sure more to come */
if (!j) return U8G_ENDSTRI;
ret = c; /* continuation needed, save start bits */
}
}
} while (more);
if (!(ret & U8G_ERROR)) { /* success return? */
*s = t; /* yes, update pointer */
*i = j; /* and counter */
}
return ret; /* return value */
}
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/* Return UCS-4 character from named charset string
* Accepts: charset
* pointer to string
* remaining octets in string
* Returns: UCS-4 character with pointer and count updated, negative if error
*
* Error codes are the same as utf8_get().
*/
unsigned long ucs4_cs_get (CHARSET *cs,unsigned char **s,unsigned long *i)
{
unsigned char c,c1,ku,ten;
unsigned long ret,d;
unsigned char *t = *s;
unsigned long j = *i;
struct utf8_eucparam *p1,*p2,*p3;
if (j--) c = *t++; /* get first octet */
else return U8G_ENDSTRG; /* empty string */
switch (cs->type) { /* convert if type known */
case CT_UTF8: /* variable UTF-8 encoded Unicode no table */
return utf8_get (s,i);
case CT_ASCII: /* 7-bit ASCII no table */
if (c >= 0x80) return U8G_NOTUTF8;
case CT_1BYTE0: /* 1 byte no table */
ret = c; /* identity */
break;
case CT_1BYTE: /* 1 byte ASCII + table 0x80-0xff */
ret = (c > 0x80) ? ((unsigned short *) cs->tab)[c & BITS7] : c;
break;
case CT_1BYTE8: /* 1 byte table 0x00 - 0xff */
ret = ((unsigned short *) cs->tab)[c];
break;
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case CT_EUC: /* 2 byte ASCII + utf8_eucparam base/CS2/CS3 */
if (c & BIT8) {
p1 = (struct utf8_eucparam *) cs->tab;
p2 = p1 + 1;
p3 = p1 + 2;
if (j--) c1 = *t++; /* get second octet */
else return U8G_ENDSTRI;
if (!(c1 & BIT8)) return U8G_NOTUTF8;
switch (c) { /* check 8bit code set */
case EUC_CS2: /* CS2 */
if (p2->base_ku) { /* CS2 set up? */
if (p2->base_ten) { /* yes, multibyte? */
if (j--) c = *t++; /* get second octet */
else return U8G_ENDSTRI;
if ((c & BIT8) &&
((ku = (c1 & BITS7) - p2->base_ku) < p2->max_ku) &&
((ten = (c & BITS7) - p2->base_ten) < p2->max_ten)) {
ret = ((unsigned short *) p2->tab)[(ku*p2->max_ten) + ten];
break;
}
}
else if ((c1 >= p2->base_ku) && (c1 < p2->max_ku)) {
ret = c1 + ((unsigned long) p2->tab);
break;
}
}
return U8G_NOTUTF8; /* CS2 not set up or bogus */
case EUC_CS3: /* CS3 */
if (p3->base_ku) { /* CS3 set up? */
if (p3->base_ten) { /* yes, multibyte? */
if (j--) c = *t++; /* get second octet */
else return U8G_ENDSTRI;
if ((c & BIT8) &&
((ku = (c1 & BITS7) - p3->base_ku) < p3->max_ku) &&
((ten = (c & BITS7) - p3->base_ten) < p3->max_ten)) {
ret = ((unsigned short *) p3->tab)[(ku*p3->max_ten) + ten];
break;
}
}
else if ((c1 >= p3->base_ku) && (c1 < p3->max_ku)) {
ret = c1 + ((unsigned long) p3->tab);
break;
}
}
return U8G_NOTUTF8; /* CS3 not set up or bogus */
default:
if (((ku = (c & BITS7) - p1->base_ku) >= p1->max_ku) ||
((ten = (c1 & BITS7) - p1->base_ten) >= p1->max_ten))
return U8G_NOTUTF8;
ret = ((unsigned short *) p1->tab)[(ku*p1->max_ten) + ten];
/* special hack for JIS X 0212: merge rows less than 10 */
if ((ret == UBOGON) && ku && (ku < 10) && p3->tab && p3->base_ten)
ret = ((unsigned short *) p3->tab)
[((ku - (p3->base_ku - p1->base_ku))*p3->max_ten) + ten];
break;
}
}
else ret = c; /* ASCII character */
break;
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case CT_DBYTE: /* 2 byte ASCII + utf8_eucparam */
if (c & BIT8) { /* double-byte character? */
p1 = (struct utf8_eucparam *) cs->tab;
if (j--) c1 = *t++; /* get second octet */
else return U8G_ENDSTRI;
if (((ku = c - p1->base_ku) < p1->max_ku) &&
((ten = c1 - p1->base_ten) < p1->max_ten))
ret = ((unsigned short *) p1->tab)[(ku*p1->max_ten) + ten];
else return U8G_NOTUTF8;
}
else ret = c; /* ASCII character */
break;
case CT_DBYTE2: /* 2 byte ASCII + utf8_eucparam plane1/2 */
if (c & BIT8) { /* double-byte character? */
p1 = (struct utf8_eucparam *) cs->tab;
p2 = p1 + 1;
if (j--) c1 = *t++; /* get second octet */
else return U8G_ENDSTRI;
if (c1 & BIT8) { /* high vs. low plane */
if ((ku = c - p2->base_ku) < p2->max_ku &&
((ten = c1 - p2->base_ten) < p2->max_ten))
ret = ((unsigned short *) p1->tab)
[(ku*(p1->max_ten + p2->max_ten)) + p1->max_ten + ten];
else return U8G_NOTUTF8;
}
else if ((ku = c - p1->base_ku) < p1->max_ku &&
((ten = c1 - p1->base_ten) < p1->max_ten))
ret = ((unsigned short *) p1->tab)
[(ku*(p1->max_ten + p2->max_ten)) + ten];
else return U8G_NOTUTF8;
}
else ret = c; /* ASCII character */
break;
case CT_SJIS: /* 2 byte Shift-JIS encoded JIS no table */
/* compromise - do yen sign but not overline */
if (!(c & BIT8)) ret = (c == JISROMAN_YEN) ? UCS2_YEN : c;
/* half-width katakana? */
else if ((c >= MIN_KANA_8) && (c < MAX_KANA_8)) ret = c + KANA_8;
else { /* Shift-JIS */
if (j--) c1 = *t++; /* get second octet */
else return U8G_ENDSTRI;
SJISTOJIS (c,c1);
ret = JISTOUNICODE (c,c1,ku,ten);
}
break;
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case CT_UCS2: /* 2 byte 16-bit Unicode no table */
ret = c << 8;
if (j--) c = *t++; /* get second octet */
else return U8G_ENDSTRI; /* empty string */
ret |= c;
break;
case CT_UCS4: /* 4 byte 32-bit Unicode no table */
if (c & 0x80) return U8G_NOTUTF8;
if (j < 3) return U8G_ENDSTRI;
j -= 3; /* count three octets */
ret = c << 24;
ret |= (*t++) << 16;
ret |= (*t++) << 8;
ret |= (*t++);
break;
case CT_UTF16: /* variable UTF-16 encoded Unicode no table */
ret = c << 8;
if (j--) c = *t++; /* get second octet */
else return U8G_ENDSTRI; /* empty string */
ret |= c;
/* surrogate? */
if ((ret >= UTF16_SURR) && (ret <= UTF16_MAXSURR)) {
/* invalid first surrogate */
if ((ret > UTF16_SURRHEND) || (j < 2)) return U8G_NOTUTF8;
j -= 2; /* count two octets */
d = (*t++) << 8; /* first octet of second surrogate */
d |= *t++; /* second octet of second surrogate */
if ((d < UTF16_SURRL) || (d > UTF16_SURRLEND)) return U8G_NOTUTF8;
ret = UTF16_BASE + ((ret & UTF16_MASK) << UTF16_SHIFT) +
(d & UTF16_MASK);
}
break;
default: /* unknown/unsupported character set type */
return U8G_NOTUTF8;
}
*s = t; /* update pointer and counter */
*i = j;
return ret;
}
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/* Produce charset validity map for BMP
* Accepts: list of charsets to map
* Returns: validity map, indexed by BMP codepoint
*
* Bit 0x1 is the "not-CJK" character bit
*/
unsigned long *utf8_csvalidmap (char *charsets[])
{
unsigned short u,*tab;
unsigned int m,ku,ten;
unsigned long i,csi,csb;
struct utf8_eucparam *param,*p2;
char *s;
const CHARSET *cs;
unsigned long *ret = (unsigned long *)
fs_get (i = 0x10000 * sizeof (unsigned long));
memset (ret,0,i); /* zero the entire vector */
/* mark all the non-CJK codepoints */
/* U+0000 - U+2E7F non-CJK */
for (i = 0; i < 0x2E7F; ++i) ret[i] = 0x1;
/* U+2E80 - U+2EFF CJK Radicals Supplement
* U+2F00 - U+2FDF Kangxi Radicals
* U+2FE0 - U+2FEF unassigned
* U+2FF0 - U+2FFF Ideographic Description Characters
* U+3000 - U+303F CJK Symbols and Punctuation
* U+3040 - U+309F Hiragana
* U+30A0 - U+30FF Katakana
* U+3100 - U+312F BoPoMoFo
* U+3130 - U+318F Hangul Compatibility Jamo
* U+3190 - U+319F Kanbun
* U+31A0 - U+31BF BoPoMoFo Extended
* U+31C0 - U+31EF CJK Strokes
* U+31F0 - U+31FF Katakana Phonetic Extensions
* U+3200 - U+32FF Enclosed CJK Letters and Months
* U+3300 - U+33FF CJK Compatibility
* U+3400 - U+4DBF CJK Unified Ideographs Extension A
* U+4DC0 - U+4DFF Yijing Hexagram Symbols
* U+4E00 - U+9FFF CJK Unified Ideographs
* U+A000 - U+A48F Yi Syllables
* U+A490 - U+A4CF Yi Radicals
* U+A700 - U+A71F Modifier Tone Letters
*/
for (i = 0xa720; i < 0xabff; ++i) ret[i] = 0x1;
/* U+AC00 - U+D7FF Hangul Syllables */
for (i = 0xd800; i < 0xf8ff; ++i) ret[i] = 0x1;
/* U+F900 - U+FAFF CJK Compatibility Ideographs */
for (i = 0xfb00; i < 0xfe2f; ++i) ret[i] = 0x1;
/* U+FE30 - U+FE4F CJK Compatibility Forms
* U+FE50 - U+FE6F Small Form Variants (for CNS 11643)
*/
for (i = 0xfe70; i < 0xfeff; ++i) ret[i] = 0x1;
/* U+FF00 - U+FFEF CJK Compatibility Ideographs */
for (i = 0xfff0; i < 0x10000; ++i) ret[i] = 0x1;
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/* for each supplied charset */
for (csi = 1; ret && charsets && (s = charsets[csi - 1]); ++csi) {
/* substitute EUC-JP for ISO-2022-JP */
if (!compare_cstring (s,"ISO-2022-JP")) s = "EUC-JP";
/* look up charset */
if ((cs = utf8_charset (s)) != NULL) {
csb = 1 << csi; /* charset bit */
switch (cs->type) {
case CT_ASCII: /* 7-bit ASCII no table */
case CT_1BYTE0: /* 1 byte no table */
case CT_1BYTE: /* 1 byte ASCII + table 0x80-0xff */
case CT_1BYTE8: /* 1 byte table 0x00 - 0xff */
case CT_EUC: /* 2 byte ASCII + utf8_eucparam base/CS2/CS3 */
case CT_DBYTE: /* 2 byte ASCII + utf8_eucparam */
case CT_DBYTE2: /* 2 byte ASCII + utf8_eucparam plane1/2 */
case CT_SJIS: /* 2 byte Shift-JIS */
/* supported charset type, all ASCII is OK */
for (i = 0; i < 128; ++i) ret[i] |= csb;
break;
default: /* unsupported charset type */
fs_give ((void **) &ret);
break;
}
/* now do additional operations */
if (ret) switch (cs->type) {
case CT_1BYTE0: /* 1 byte no table */
for (i = 128; i < 256; i++) ret[i] |= csb;
break;
case CT_1BYTE: /* 1 byte ASCII + table 0x80-0xff */
for (tab = (unsigned short *) cs->tab,i = 128; i < 256; i++)
if (tab[i & BITS7] != UBOGON) ret[tab[i & BITS7]] |= csb;
break;
case CT_1BYTE8: /* 1 byte table 0x00 - 0xff */
for (tab = (unsigned short *) cs->tab,i = 0; i < 256; i++)
if (tab[i] != UBOGON) ret[tab[i]] |= csb;
break;
case CT_EUC: /* 2 byte ASCII + utf8_eucparam base/CS2/CS3 */
for (param = (struct utf8_eucparam *) cs->tab,
tab = (unsigned short *) param->tab, ku = 0;
ku < param->max_ku; ku++)
for (ten = 0; ten < param->max_ten; ten++)
if ((u = tab[(ku * param->max_ten) + ten]) != UBOGON)
ret[u] |= csb;
break;
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case CT_DBYTE: /* 2 byte ASCII + utf8_eucparam */
for (param = (struct utf8_eucparam *) cs->tab,
tab = (unsigned short *) param->tab, ku = 0;
ku < param->max_ku; ku++)
for (ten = 0; ten < param->max_ten; ten++)
if ((u = tab[(ku * param->max_ten) + ten]) != UBOGON)
ret[u] |= csb;
break;
case CT_DBYTE2: /* 2 byte ASCII + utf8_eucparam plane1/2 */
param = (struct utf8_eucparam *) cs->tab;
p2 = param + 1; /* plane 2 parameters */
/* only ten parameters should differ */
if ((param->base_ku != p2->base_ku) || (param->max_ku != p2->max_ku))
fatal ("ku definition error for CT_DBYTE2 charset");
/* total codepoints in each ku */
m = param->max_ten + p2->max_ten;
tab = (unsigned short *) param->tab;
for (ku = 0; ku < param->max_ku; ku++) {
for (ten = 0; ten < param->max_ten; ten++)
if ((u = tab[(ku * m) + ten]) != UBOGON)
ret[u] |= csb;
for (ten = 0; ten < p2->max_ten; ten++)
if ((u = tab[(ku * m) + param->max_ten + ten]) != UBOGON)
ret[u] |= csb;
}
break;
case CT_SJIS: /* 2 byte Shift-JIS */
for (ku = 0; ku < MAX_JIS0208_KU; ku++)
for (ten = 0; ten < MAX_JIS0208_TEN; ten++)
if ((u = jis0208tab[ku][ten]) != UBOGON) ret[u] |= csb;
/* JIS hankaku katakana */
for (u = 0; u < (MAX_KANA_8 - MIN_KANA_8); u++)
ret[UCS2_KATAKANA + u] |= csb;
break;
}
}
/* invalid charset, punt */
else fs_give ((void **) &ret);
}
return ret;
}
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/* Infer charset from unlabelled sized text
* Accepts: sized text
* Returns: charset if one inferred, or NIL if unknown
*/
const CHARSET *utf8_infercharset (SIZEDTEXT *src)
{
long iso2022jp = NIL;
long eightbit = NIL;
unsigned long i;
/* look for ISO 2022 */
if (src) for (i = 0; i < src->size; i++) {
/* ESC sequence? */
if ((src->data[i] == I2C_ESC) && (++i < src->size)) switch (src->data[i]) {
case I2C_MULTI: /* yes, multibyte? */
if (++i < src->size) switch (src->data[i]) {
case I2CS_94x94_JIS_OLD: /* JIS X 0208-1978 */
case I2CS_94x94_JIS_NEW: /* JIS X 0208-1983 */
case I2CS_94x94_JIS_EXT: /* JIS X 0212-1990 (kludge...) */
iso2022jp = T; /* found an ISO-2022-JP sequence */
break;
default: /* other multibyte */
return NIL; /* definitely invalid */
}
break;
case I2C_G0_94: /* single byte */
if (++i < src->size) switch (src->data[i]) {
case I2CS_94_JIS_BUGROM: /* in case old buggy software */
case I2CS_94_JIS_ROMAN: /* JIS X 0201-1976 left half */
case I2CS_94_ASCII: /* ASCII */
case I2CS_94_BRITISH: /* good enough for gov't work */
break;
default: /* other 94 single byte */
return NIL; /* definitely invalid */
}
}
/* if possible UTF-8 and not ISO-2022-JP */
else if (!iso2022jp && (eightbit >= 0) && (src->data[i] & BIT8) &&
(eightbit = utf8_validate (src->data + i,src->size - i)) > 0)
i += eightbit - 1; /* skip past all but last of UTF-8 char */
}
/* ISO-2022-JP overrides other guesses */
if (iso2022jp) return utf8_charset ("ISO-2022-JP");
if (eightbit > 0) return utf8_charset ("UTF-8");
return eightbit ? NIL : utf8_charset ("US-ASCII");
}
/* Validate that character at this position is UTF-8
* Accepts: string pointer
* size of remaining string
* Returns: size of UTF-8 character in octets or -1 if not UTF-8
*/
long utf8_validate (unsigned char *s,unsigned long i)
{
unsigned long j = i;
return (utf8_get (&s,&i) & U8G_ERROR) ? -1 : j - i;
}
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/* Convert ISO 8859-1 to UTF-8
* Accepts: source sized text
* pointer to return sized text
* canonicalization function
*/
void utf8_text_1byte0 (SIZEDTEXT *text,SIZEDTEXT *ret,ucs4cn_t cv,ucs4de_t de)
{
unsigned long i;
unsigned char *s;
unsigned int c;
for (ret->size = i = 0; i < text->size;) {
c = text->data[i++];
UTF8_COUNT_BMP (ret->size,c,cv,de)
}
(s = ret->data = (unsigned char *) fs_get (ret->size + 1))[ret->size] =NIL;
for (i = 0; i < text->size;) {
c = text->data[i++];
UTF8_WRITE_BMP (s,c,cv,de) /* convert UCS-2 to UTF-8 */
}
}
/* Convert single byte ASCII+8bit character set sized text to UTF-8
* Accepts: source sized text
* pointer to return sized text
* conversion table
* canonicalization function
*/
void utf8_text_1byte (SIZEDTEXT *text,SIZEDTEXT *ret,void *tab,ucs4cn_t cv,
ucs4de_t de)
{
unsigned long i;
unsigned char *s;
unsigned int c;
unsigned short *tbl = (unsigned short *) tab;
for (ret->size = i = 0; i < text->size;) {
if ((c = text->data[i++]) & BIT8) c = tbl[c & BITS7];
UTF8_COUNT_BMP (ret->size,c,cv,de)
}
(s = ret->data = (unsigned char *) fs_get (ret->size + 1))[ret->size] =NIL;
for (i = 0; i < text->size;) {
if ((c = text->data[i++]) & BIT8) c = tbl[c & BITS7];
UTF8_WRITE_BMP (s,c,cv,de) /* convert UCS-2 to UTF-8 */
}
}
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/* Convert single byte 8bit character set sized text to UTF-8
* Accepts: source sized text
* pointer to return sized text
* conversion table
* canonicalization function
*/
void utf8_text_1byte8 (SIZEDTEXT *text,SIZEDTEXT *ret,void *tab,ucs4cn_t cv,
ucs4de_t de)
{
unsigned long i;
unsigned char *s;
unsigned int c;
unsigned short *tbl = (unsigned short *) tab;
for (ret->size = i = 0; i < text->size;) {
c = tbl[text->data[i++]];
UTF8_COUNT_BMP (ret->size,c,cv,de)
}
(s = ret->data = (unsigned char *) fs_get (ret->size + 1))[ret->size] =NIL;
for (i = 0; i < text->size;) {
c = tbl[text->data[i++]];
UTF8_WRITE_BMP (s,c,cv,de) /* convert UCS-2 to UTF-8 */
}
}
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/* Convert EUC sized text to UTF-8
* Accepts: source sized text
* pointer to return sized text
* EUC parameter table
* canonicalization function
*/
void utf8_text_euc (SIZEDTEXT *text,SIZEDTEXT *ret,void *tab,ucs4cn_t cv,
ucs4de_t de)
{
unsigned long i;
unsigned char *s;
unsigned int pass,c,c1,ku,ten;
struct utf8_eucparam *p1 = (struct utf8_eucparam *) tab;
struct utf8_eucparam *p2 = p1 + 1;
struct utf8_eucparam *p3 = p1 + 2;
unsigned short *t1 = (unsigned short *) p1->tab;
unsigned short *t2 = (unsigned short *) p2->tab;
unsigned short *t3 = (unsigned short *) p3->tab;
for (pass = 0,s = NIL,ret->size = 0; pass <= 1; pass++) {
for (i = 0; i < text->size;) {
/* not CS0? */
if ((c = text->data[i++]) & BIT8) {
/* yes, must have another high byte */
if ((i >= text->size) || !((c1 = text->data[i++]) & BIT8))
c = UBOGON; /* out of space or bogon */
else switch (c) { /* check 8bit code set */
case EUC_CS2: /* CS2 */
if (p2->base_ku) { /* CS2 set up? */
if (p2->base_ten) /* yes, multibyte? */
c = ((i < text->size) && ((c = text->data[i++]) & BIT8) &&
((ku = (c1 & BITS7) - p2->base_ku) < p2->max_ku) &&
((ten = (c & BITS7) - p2->base_ten) < p2->max_ten)) ?
t2[(ku*p2->max_ten) + ten] : UBOGON;
else c = ((c1 >= p2->base_ku) && (c1 < p2->max_ku)) ?
c1 + ((unsigned long) p2->tab) : UBOGON;
}
else { /* CS2 not set up */
c = UBOGON; /* swallow byte, say bogon */
if (i < text->size) i++;
}
break;
case EUC_CS3: /* CS3 */
if (p3->base_ku) { /* CS3 set up? */
if (p3->base_ten) /* yes, multibyte? */
c = ((i < text->size) && ((c = text->data[i++]) & BIT8) &&
((ku = (c1 & BITS7) - p3->base_ku) < p3->max_ku) &&
((ten = (c & BITS7) - p3->base_ten) < p3->max_ten)) ?
t3[(ku*p3->max_ten) + ten] : UBOGON;
else c = ((c1 >= p3->base_ku) && (c1 < p3->max_ku)) ?
c1 + ((unsigned long) p3->tab) : UBOGON;
}
else { /* CS3 not set up */
c = UBOGON; /* swallow byte, say bogon */
if (i < text->size) i++;
}
break;
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default:
if (((ku = (c & BITS7) - p1->base_ku) >= p1->max_ku) ||
((ten = (c1 & BITS7) - p1->base_ten) >= p1->max_ten)) c = UBOGON;
else if (((c = t1[(ku*p1->max_ten) + ten]) == UBOGON) &&
/* special hack for JIS X 0212: merge rows less than 10 */
ku && (ku < 10) && t3 && p3->base_ten)
c = t3[((ku - (p3->base_ku - p1->base_ku))*p3->max_ten) + ten];
}
}
/* convert if second pass */
if (pass) UTF8_WRITE_BMP (s,c,cv,de)
else UTF8_COUNT_BMP (ret->size,c,cv,de);
}
if (!pass) (s = ret->data = (unsigned char *)
fs_get (ret->size + 1))[ret->size] =NIL;
}
}
/* Convert ASCII + double-byte sized text to UTF-8
* Accepts: source sized text
* pointer to return sized text
* conversion table
* canonicalization function
*/
void utf8_text_dbyte (SIZEDTEXT *text,SIZEDTEXT *ret,void *tab,ucs4cn_t cv,
ucs4de_t de)
{
unsigned long i;
unsigned char *s;
unsigned int c,c1,ku,ten;
struct utf8_eucparam *p1 = (struct utf8_eucparam *) tab;
unsigned short *t1 = (unsigned short *) p1->tab;
for (ret->size = i = 0; i < text->size;) {
if ((c = text->data[i++]) & BIT8) {
/* special hack for GBK: 0x80 is Euro */
if ((c == 0x80) && (t1 == (unsigned short *) gb2312tab)) c = UCS2_EURO;
else c = ((i < text->size) && (c1 = text->data[i++]) &&
((ku = c - p1->base_ku) < p1->max_ku) &&
((ten = c1 - p1->base_ten) < p1->max_ten)) ?
t1[(ku*p1->max_ten) + ten] : UBOGON;
}
UTF8_COUNT_BMP (ret->size,c,cv,de)
}
(s = ret->data = (unsigned char *) fs_get (ret->size + 1))[ret->size] = NIL;
for (i = 0; i < text->size;) {
if ((c = text->data[i++]) & BIT8) {
/* special hack for GBK: 0x80 is Euro */
if ((c == 0x80) && (t1 == (unsigned short *) gb2312tab)) c = UCS2_EURO;
else c = ((i < text->size) && (c1 = text->data[i++]) &&
((ku = c - p1->base_ku) < p1->max_ku) &&
((ten = c1 - p1->base_ten) < p1->max_ten)) ?
t1[(ku*p1->max_ten) + ten] : UBOGON;
}
UTF8_WRITE_BMP (s,c,cv,de) /* convert UCS-2 to UTF-8 */
}
}
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/* Convert ASCII + double byte 2 plane sized text to UTF-8
* Accepts: source sized text
* pointer to return sized text
* conversion table
* canonicalization function
*/
void utf8_text_dbyte2 (SIZEDTEXT *text,SIZEDTEXT *ret,void *tab,ucs4cn_t cv,
ucs4de_t de)
{
unsigned long i;
unsigned char *s;
unsigned int c,c1,ku,ten;
struct utf8_eucparam *p1 = (struct utf8_eucparam *) tab;
struct utf8_eucparam *p2 = p1 + 1;
unsigned short *t = (unsigned short *) p1->tab;
for (ret->size = i = 0; i < text->size;) {
if ((c = text->data[i++]) & BIT8) {
if ((i >= text->size) || !(c1 = text->data[i++]))
c = UBOGON; /* out of space or bogon */
else if (c1 & BIT8) /* high vs. low plane */
c = ((ku = c - p2->base_ku) < p2->max_ku &&
((ten = c1 - p2->base_ten) < p2->max_ten)) ?
t[(ku*(p1->max_ten + p2->max_ten)) + p1->max_ten + ten] :UBOGON;
else c = ((ku = c - p1->base_ku) < p1->max_ku &&
((ten = c1 - p1->base_ten) < p1->max_ten)) ?
t[(ku*(p1->max_ten + p2->max_ten)) + ten] : UBOGON;
}
UTF8_COUNT_BMP (ret->size,c,cv,de)
}
(s = ret->data = (unsigned char *) fs_get (ret->size + 1))[ret->size] = NIL;
for (i = 0; i < text->size;) {
if ((c = text->data[i++]) & BIT8) {
if ((i >= text->size) || !(c1 = text->data[i++]))
c = UBOGON; /* out of space or bogon */
else if (c1 & BIT8) /* high vs. low plane */
c = ((ku = c - p2->base_ku) < p2->max_ku &&
((ten = c1 - p2->base_ten) < p2->max_ten)) ?
t[(ku*(p1->max_ten + p2->max_ten)) + p1->max_ten + ten] :UBOGON;
else c = ((ku = c - p1->base_ku) < p1->max_ku &&
((ten = c1 - p1->base_ten) < p1->max_ten)) ?
t[(ku*(p1->max_ten + p2->max_ten)) + ten] : UBOGON;
}
UTF8_WRITE_BMP (s,c,cv,de) /* convert UCS-2 to UTF-8 */
}
}
�
#ifdef JISTOUNICODE /* Japanese */
/* Convert Shift JIS sized text to UTF-8
* Accepts: source sized text
* pointer to return sized text
* canonicalization function
*/
void utf8_text_sjis (SIZEDTEXT *text,SIZEDTEXT *ret,ucs4cn_t cv,
ucs4de_t de)
{
unsigned long i;
unsigned char *s;
unsigned int c,c1,ku,ten;
for (ret->size = i = 0; i < text->size;) {
if ((c = text->data[i++]) & BIT8) {
/* half-width katakana */
if ((c >= MIN_KANA_8) && (c < MAX_KANA_8)) c += KANA_8;
else if (i >= text->size) c = UBOGON;
else { /* Shift-JIS */
c1 = text->data[i++];
SJISTOJIS (c,c1);
c = JISTOUNICODE (c,c1,ku,ten);
}
}
/* compromise - do yen sign but not overline */
else if (c == JISROMAN_YEN) c = UCS2_YEN;
UTF8_COUNT_BMP (ret->size,c,cv,de)
}
(s = ret->data = (unsigned char *) fs_get (ret->size + 1))[ret->size] = NIL;
for (i = 0; i < text->size;) {
if ((c = text->data[i++]) & BIT8) {
/* half-width katakana */
if ((c >= MIN_KANA_8) && (c < MAX_KANA_8)) c += KANA_8;
else { /* Shift-JIS */
c1 = text->data[i++];
SJISTOJIS (c,c1);
c = JISTOUNICODE (c,c1,ku,ten);
}
}
/* compromise - do yen sign but not overline */
else if (c == JISROMAN_YEN) c = UCS2_YEN;
UTF8_WRITE_BMP (s,c,cv,de) /* convert UCS-2 to UTF-8 */
}
}
#endif
�
/* Convert ISO-2022 sized text to UTF-8
* Accepts: source sized text
* pointer to returned sized text
* canonicalization function
*/
void utf8_text_2022 (SIZEDTEXT *text,SIZEDTEXT *ret,ucs4cn_t cv,ucs4de_t de)
{
unsigned long i;
unsigned char *s;
unsigned int pass,state,c,co,gi,gl,gr,g[4],ku,ten;
for (pass = 0,s = NIL,ret->size = 0; pass <= 1; pass++) {
gi = 0; /* quell compiler warnings */
state = I2S_CHAR; /* initialize engine */
g[0]= g[2] = I2CS_ASCII; /* G0 and G2 are ASCII */
g[1]= g[3] = I2CS_ISO8859_1;/* G1 and G3 are ISO-8850-1 */
gl = I2C_G0; gr = I2C_G1; /* left is G0, right is G1 */
for (i = 0; i < text->size;) {
c = text->data[i++];
switch (state) { /* dispatch based upon engine state */
case I2S_ESC: /* ESC seen */
switch (c) { /* process intermediate character */
case I2C_MULTI: /* multibyte character? */
state = I2S_MUL; /* mark multibyte flag seen */
break;
case I2C_SS2: /* single shift GL to G2 */
case I2C_SS2_ALT: /* Taiwan SeedNet */
gl |= I2C_SG2;
break;
case I2C_SS3: /* single shift GL to G3 */
case I2C_SS3_ALT: /* Taiwan SeedNet */
gl |= I2C_SG3;
break;
case I2C_LS2: /* shift GL to G2 */
gl = I2C_G2;
break;
case I2C_LS3: /* shift GL to G3 */
gl = I2C_G3;
break;
case I2C_LS1R: /* shift GR to G1 */
gr = I2C_G1;
break;
case I2C_LS2R: /* shift GR to G2 */
gr = I2C_G2;
break;
case I2C_LS3R: /* shift GR to G3 */
gr = I2C_G3;
break;
case I2C_G0_94: case I2C_G1_94: case I2C_G2_94: case I2C_G3_94:
g[gi = c - I2C_G0_94] = (state == I2S_MUL) ? I2CS_94x94 : I2CS_94;
state = I2S_INT; /* ready for character set */
break;
case I2C_G0_96: case I2C_G1_96: case I2C_G2_96: case I2C_G3_96:
g[gi = c - I2C_G0_96] = (state == I2S_MUL) ? I2CS_96x96 : I2CS_96;
state = I2S_INT; /* ready for character set */
break;
default: /* bogon */
if (pass) *s++ = I2C_ESC,*s++ = c;
else ret->size += 2;
state = I2S_CHAR; /* return to previous state */
}
break;
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case I2S_MUL: /* ESC $ */
switch (c) { /* process multibyte intermediate character */
case I2C_G0_94: case I2C_G1_94: case I2C_G2_94: case I2C_G3_94:
g[gi = c - I2C_G0_94] = I2CS_94x94;
state = I2S_INT; /* ready for character set */
break;
case I2C_G0_96: case I2C_G1_96: case I2C_G2_96: case I2C_G3_96:
g[gi = c - I2C_G0_96] = I2CS_96x96;
state = I2S_INT; /* ready for character set */
break;
default: /* probably omitted I2CS_94x94 */
g[gi = I2C_G0] = I2CS_94x94 | c;
state = I2S_CHAR; /* return to character state */
}
break;
case I2S_INT:
state = I2S_CHAR; /* return to character state */
g[gi] |= c; /* set character set */
break;
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case I2S_CHAR: /* character data */
switch (c) {
case I2C_ESC: /* ESC character */
state = I2S_ESC; /* see if ISO-2022 prefix */
break;
case I2C_SI: /* shift GL to G0 */
gl = I2C_G0;
break;
case I2C_SO: /* shift GL to G1 */
gl = I2C_G1;
break;
case I2C_SS2_ALT: /* single shift GL to G2 */
case I2C_SS2_ALT_7:
gl |= I2C_SG2;
break;
case I2C_SS3_ALT: /* single shift GL to G3 */
case I2C_SS3_ALT_7:
gl |= I2C_SG3;
break;
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default: /* ordinary character */
co = c; /* note original character */
if (gl & (3 << 2)) { /* single shifted? */
gi = g[gl >> 2]; /* get shifted character set */
gl &= 0x3; /* cancel shift */
}
/* select left or right half */
else gi = (c & BIT8) ? g[gr] : g[gl];
c &= BITS7; /* make 7-bit */
switch (gi) { /* interpret in character set */
case I2CS_ASCII: /* ASCII */
break; /* easy! */
case I2CS_BRITISH: /* British ASCII */
/* Pound sterling sign */
if (c == BRITISH_POUNDSTERLING) c = UCS2_POUNDSTERLING;
break;
case I2CS_JIS_ROMAN: /* JIS Roman */
case I2CS_JIS_BUGROM: /* old bugs */
switch (c) { /* two exceptions to ASCII */
case JISROMAN_YEN: /* Yen sign */
c = UCS2_YEN;
break;
/* overline */
case JISROMAN_OVERLINE:
c = UCS2_OVERLINE;
break;
}
break;
case I2CS_JIS_KANA: /* JIS hankaku katakana */
if ((c >= MIN_KANA_7) && (c < MAX_KANA_7)) c += KANA_7;
break;
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case I2CS_ISO8859_1: /* Latin-1 (West European) */
c |= BIT8; /* just turn on high bit */
break;
case I2CS_ISO8859_2: /* Latin-2 (Czech, Slovak) */
c = iso8859_2tab[c];
break;
case I2CS_ISO8859_3: /* Latin-3 (Dutch, Turkish) */
c = iso8859_3tab[c];
break;
case I2CS_ISO8859_4: /* Latin-4 (Scandinavian) */
c = iso8859_4tab[c];
break;
case I2CS_ISO8859_5: /* Cyrillic */
c = iso8859_5tab[c];
break;
case I2CS_ISO8859_6: /* Arabic */
c = iso8859_6tab[c];
break;
case I2CS_ISO8859_7: /* Greek */
c = iso8859_7tab[c];
break;
case I2CS_ISO8859_8: /* Hebrew */
c = iso8859_8tab[c];
break;
case I2CS_ISO8859_9: /* Latin-5 (Finnish, Portuguese) */
c = iso8859_9tab[c];
break;
case I2CS_TIS620: /* Thai */
c = tis620tab[c];
break;
case I2CS_ISO8859_10: /* Latin-6 (Northern Europe) */
c = iso8859_10tab[c];
break;
case I2CS_ISO8859_13: /* Latin-7 (Baltic) */
c = iso8859_13tab[c];
break;
case I2CS_VSCII: /* Vietnamese */
c = visciitab[c];
break;
case I2CS_ISO8859_14: /* Latin-8 (Celtic) */
c = iso8859_14tab[c];
break;
case I2CS_ISO8859_15: /* Latin-9 (Euro) */
c = iso8859_15tab[c];
break;
case I2CS_ISO8859_16: /* Latin-10 (Baltic) */
c = iso8859_16tab[c];
break;
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default: /* all other character sets */
/* multibyte character set */
if ((gi & I2CS_MUL) && !(c & BIT8) && isgraph (c)) {
c = (i < text->size) ? text->data[i++] : 0;
switch (gi) {
#ifdef GBTOUNICODE
case I2CS_GB: /* GB 2312 */
co |= BIT8; /* make into EUC */
c |= BIT8;
c = GBTOUNICODE (co,c,ku,ten);
break;
#endif
#ifdef JISTOUNICODE
case I2CS_JIS_OLD:/* JIS X 0208-1978 */
case I2CS_JIS_NEW:/* JIS X 0208-1983 */
c = JISTOUNICODE (co,c,ku,ten);
break;
#endif
#ifdef JIS0212TOUNICODE
case I2CS_JIS_EXT:/* JIS X 0212-1990 */
c = JIS0212TOUNICODE (co,c,ku,ten);
break;
#endif
#ifdef KSCTOUNICODE
case I2CS_KSC: /* KSC 5601 */
co |= BIT8; /* make into EUC */
c |= BIT8;
c = KSCTOUNICODE (co,c,ku,ten);
break;
#endif
#ifdef CNS1TOUNICODE
case I2CS_CNS1: /* CNS 11643 plane 1 */
c = CNS1TOUNICODE (co,c,ku,ten);
break;
#endif
#ifdef CNS2TOUNICODE
case I2CS_CNS2: /* CNS 11643 plane 2 */
c = CNS2TOUNICODE (co,c,ku,ten);
break;
#endif
#ifdef CNS3TOUNICODE
case I2CS_CNS3: /* CNS 11643 plane 3 */
c = CNS3TOUNICODE (co,c,ku,ten);
break;
#endif
#ifdef CNS4TOUNICODE
case I2CS_CNS4: /* CNS 11643 plane 4 */
c = CNS4TOUNICODE (co,c,ku,ten);
break;
#endif
#ifdef CNS5TOUNICODE
case I2CS_CNS5: /* CNS 11643 plane 5 */
c = CNS5TOUNICODE (co,c,ku,ten);
break;
#endif
#ifdef CNS6TOUNICODE
case I2CS_CNS6: /* CNS 11643 plane 6 */
c = CNS6TOUNICODE (co,c,ku,ten);
break;
#endif
#ifdef CNS7TOUNICODE
case I2CS_CNS7: /* CNS 11643 plane 7 */
c = CNS7TOUNICODE (co,c,ku,ten);
break;
#endif
default: /* unknown multibyte, treat as UCS-2 */
c |= (co << 8); /* wrong, but nothing else to do */
break;
}
}
else c = co; /* unknown single byte, treat as 8859-1 */
}
/* convert if second pass */
if (pass) UTF8_WRITE_BMP (s,c,cv,de)
else UTF8_COUNT_BMP (ret->size,c,cv,de);
}
}
}
if (!pass) (s = ret->data = (unsigned char *)
fs_get (ret->size + 1))[ret->size] = NIL;
else if (((unsigned long) (s - ret->data)) != ret->size)
fatal ("ISO-2022 to UTF-8 botch");
}
}
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/* Convert UTF-7 sized text to UTF-8
* Accepts: source sized text
* pointer to returned sized text
* canonicalization function
*/
void utf8_text_utf7 (SIZEDTEXT *text,SIZEDTEXT *ret,ucs4cn_t cv,ucs4de_t de)
{
unsigned long i;
unsigned char *s;
unsigned int c,c1,d,uc,pass,e,e1,state,surrh;
for (pass = 0,s = NIL,ret->size = 0; pass <= 1; pass++) {
c1 = d = uc = e = e1 = 0;
for (i = 0,state = NIL; i < text->size;) {
c = text->data[i++]; /* get next byte */
switch (state) {
case U7_PLUS: /* previous character was + */
if (c == '-') { /* +- means textual + */
c = '+';
state = U7_ASCII; /* revert to ASCII */
break;
}
state = U7_UNICODE; /* enter Unicode state */
e = e1 = 0; /* initialize Unicode quantum position */
case U7_UNICODE: /* Unicode state */
if (c == '-') state = U7_MINUS;
else { /* decode Unicode */
/* don't use isupper/islower since this is ASCII only */
if ((c >= 'A') && (c <= 'Z')) c -= 'A';
else if ((c >= 'a') && (c <= 'z')) c -= 'a' - 26;
else if (isdigit (c)) c -= '0' - 52;
else if (c == '+') c = 62;
else if (c == '/') c = 63;
else state = U7_ASCII;/* end of modified BASE64 */
}
break;
case U7_MINUS: /* previous character was absorbed - */
state = U7_ASCII; /* revert to ASCII */
case U7_ASCII: /* ASCII state */
if (c == '+') state = U7_PLUS;
break;
}
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switch (state) { /* store character if in character mode */
case U7_UNICODE: /* Unicode */
switch (e++) { /* install based on BASE64 state */
case 0:
c1 = c << 2; /* byte 1: high 6 bits */
break;
case 1:
d = c1 | (c >> 4); /* byte 1: low 2 bits */
c1 = c << 4; /* byte 2: high 4 bits */
break;
case 2:
d = c1 | (c >> 2); /* byte 2: low 4 bits */
c1 = c << 6; /* byte 3: high 2 bits */
break;
case 3:
d = c | c1; /* byte 3: low 6 bits */
e = 0; /* reinitialize mechanism */
break;
}
if (e == 1) break; /* done if first BASE64 state */
if (!e1) { /* first byte of UCS-2 character */
uc = (d & 0xff) << 8; /* note first byte */
e1 = T; /* enter second UCS-2 state */
break; /* done */
}
c = uc | (d & 0xff); /* build UCS-2 character */
e1 = NIL; /* back to first UCS-2 state, drop in */
/* surrogate pair? */
if ((c >= UTF16_SURR) && (c <= UTF16_MAXSURR)) {
/* save high surrogate for later */
if (c < UTF16_SURRL) surrh = c;
else c = UTF16_BASE + ((surrh & UTF16_MASK) << UTF16_SHIFT) +
(c & UTF16_MASK);
break; /* either way with surrogates, we're done */
}
case U7_ASCII: /* just install if ASCII */
/* convert if second pass */
if (pass) UTF8_WRITE_BMP (s,c,cv,de)
else UTF8_COUNT_BMP (ret->size,c,cv,de);
}
}
if (!pass) (s = ret->data = (unsigned char *)
fs_get (ret->size + 1))[ret->size] = NIL;
else if (((unsigned long) (s - ret->data)) != ret->size)
fatal ("UTF-7 to UTF-8 botch");
}
}
/* Convert UTF-8 sized text to UTF-8
* Accepts: source sized text
* pointer to returned sized text
* canonicalization function
*/
void utf8_text_utf8 (SIZEDTEXT *text,SIZEDTEXT *ret,ucs4cn_t cv,ucs4de_t de)
{
unsigned long i,c;
unsigned char *s,*t;
for (ret->size = 0, t = text->data, i = text->size; i;) {
if ((c = utf8_get (&t,&i)) & U8G_ERROR) {
ret->data = text->data; /* conversion failed */
ret->size = text->size;
return;
}
UTF8_COUNT (ret->size,c,cv,de)
}
(s = ret->data = (unsigned char *) fs_get (ret->size + 1))[ret->size] =NIL;
for (t = text->data, i = text->size; i;) {
c = utf8_get (&t,&i);
UTF8_WRITE (s,c,cv,de) /* convert UCS-4 to UTF-8 */
}
if (((unsigned long) (s - ret->data)) != ret->size)
fatal ("UTF-8 to UTF-8 botch");
}
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/* Convert UCS-2 sized text to UTF-8
* Accepts: source sized text
* pointer to returned sized text
* canonicalization function
*/
void utf8_text_ucs2 (SIZEDTEXT *text,SIZEDTEXT *ret,ucs4cn_t cv,ucs4de_t de)
{
unsigned long i;
unsigned char *s,*t;
unsigned int c;
for (ret->size = 0, t = text->data, i = text->size / 2; i; --i) {
c = *t++ << 8;
c |= *t++;
UTF8_COUNT_BMP (ret->size,c,cv,de);
}
(s = ret->data = (unsigned char *) fs_get (ret->size + 1))[ret->size] = NIL;
for (t = text->data, i = text->size / 2; i; --i) {
c = *t++ << 8;
c |= *t++;
UTF8_WRITE_BMP (s,c,cv,de) /* convert UCS-2 to UTF-8 */
}
if (((unsigned long) (s - ret->data)) != ret->size)
fatal ("UCS-2 to UTF-8 botch");
}
/* Convert UCS-4 sized text to UTF-8
* Accepts: source sized text
* pointer to returned sized text
* canonicalization function
*/
void utf8_text_ucs4 (SIZEDTEXT *text,SIZEDTEXT *ret,ucs4cn_t cv,ucs4de_t de)
{
unsigned long i;
unsigned char *s,*t;
unsigned long c;
for (ret->size = 0, t = text->data, i = text->size / 4; i; --i) {
c = *t++ << 24; c |= *t++ << 16; c |= *t++ << 8; c |= *t++;
UTF8_COUNT (ret->size,c,cv,de);
}
(s = ret->data = (unsigned char *) fs_get (ret->size + 1))[ret->size] = NIL;
for (t = text->data, i = text->size / 2; i; --i) {
c = *t++ << 24; c |= *t++ << 16; c |= *t++ << 8; c |= *t++;
UTF8_WRITE (s,c,cv,de) /* convert UCS-4 to UTF-8 */
}
if (((unsigned long) (s - ret->data)) != ret->size)
fatal ("UCS-4 to UTF-8 botch");
}
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/* Convert UTF-16 sized text to UTF-8
* Accepts: source sized text
* pointer to returned sized text
* canonicalization function
*/
void utf8_text_utf16 (SIZEDTEXT *text,SIZEDTEXT *ret,ucs4cn_t cv,ucs4de_t de)
{
unsigned long i;
unsigned char *s,*t;
unsigned long c,d;
for (ret->size = 0, t = text->data, i = text->size / 2; i; --i) {
c = *t++ << 8;
c |= *t++;
/* possible surrogate? */
if ((c >= UTF16_SURR) && (c <= UTF16_MAXSURR)) {
/* invalid first surrogate */
if ((c > UTF16_SURRHEND) || !i) c = UBOGON;
else { /* get second surrogate */
d = *t++ << 8;
d |= *t++;
--i; /* swallowed another 16-bits */
/* invalid second surrogate */
if ((d < UTF16_SURRL) || (d > UTF16_SURRLEND)) c = UBOGON;
else c = UTF16_BASE + ((c & UTF16_MASK) << UTF16_SHIFT) +
(d & UTF16_MASK);
}
}
UTF8_COUNT (ret->size,c,cv,de);
}
(s = ret->data = (unsigned char *) fs_get (ret->size + 1))[ret->size] = NIL;
for (t = text->data, i = text->size / 2; i; --i) {
c = *t++ << 8;
c |= *t++;
/* possible surrogate? */
if ((c >= UTF16_SURR) && (c <= UTF16_MAXSURR)) {
/* invalid first surrogate */
if ((c > UTF16_SURRHEND) || !i) c = UBOGON;
else { /* get second surrogate */
d = *t++ << 8;
d |= *t++;
--i; /* swallowed another 16-bits */
/* invalid second surrogate */
if ((d < UTF16_SURRL) || (d > UTF16_SURRLEND)) c = UBOGON;
else c = UTF16_BASE + ((c & UTF16_MASK) << UTF16_SHIFT) +
(d & UTF16_MASK);
}
}
UTF8_WRITE (s,c,cv,de) /* convert UCS-4 to UTF-8 */
}
if (((unsigned long) (s - ret->data)) != ret->size)
fatal ("UTF-16 to UTF-8 botch");
}
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/* Size of UCS-4 character, possibly not in BMP, as UTF-8 octets
* Accepts: character
* Returns: size (0 means bogon)
*
* Use UTF8_SIZE macro if known to be in the BMP
*/
unsigned long utf8_size (unsigned long c)
{
if (c < 0x80) return 1;
else if (c < 0x800) return 2;
else if (c < 0x10000) return 3;
else if (c < 0x200000) return 4;
else if (c < 0x4000000) return 5;
else if (c < 0x80000000) return 6;
return 0;
}
/* Put UCS-4 character, possibly not in BMP, as UTF-8 octets
* Accepts: destination string pointer
* character
* Returns: updated destination pointer
*
* Use UTF8_PUT_BMP macro if known to be in the BMP
*/
unsigned char *utf8_put (unsigned char *s,unsigned long c)
{
unsigned char mark[6] = {0x00,0xc0,0xe0,0xf0,0xf8,0xfc};
unsigned long size = utf8_size (c);
switch (size) {
case 6:
s[5] = 0x80 | (unsigned char) (c & 0x3f);
c >>= 6;
case 5:
s[4] = 0x80 | (unsigned char) (c & 0x3f);
c >>= 6;
case 4:
s[3] = 0x80 | (unsigned char) (c & 0x3f);
c >>= 6;
case 3:
s[2] = 0x80 | (unsigned char) (c & 0x3f);
c >>= 6;
case 2:
s[1] = 0x80 | (unsigned char) (c & 0x3f);
c >>= 6;
case 1:
*s = mark[size-1] | (unsigned char) (c & 0x7f);
break;
}
return s + size;
}
�
/* Return title case of a fixed-width UCS-4 character
* Accepts: character
* Returns: title case of character
*/
unsigned long ucs4_titlecase (unsigned long c)
{
if (c <= UCS4_TMAPMAX) return ucs4_tmaptab[c];
if (c < UCS4_TMAPHIMIN) return c;
if (c <= UCS4_TMAPHIMAX) return c - UCS4_TMAPHIMAP;
if (c < UCS4_TMAPDESERETMIN) return c;
if (c <= UCS4_TMAPDESERETMAX) return c - UCS4_TMAPDESERETMAP;
return c;
}
/* Return width of a fixed-width UCS-4 character in planes 0-2
* Accepts: character
* Returns: width (0, 1, 2) or negative error condition if not valid
*/
long ucs4_width (unsigned long c)
{
long ret;
ucs4width_t uw = (ucs4width_t) utf8_parameters(GET_UCS4WIDTH, NIL);
/* out of range, not-a-char, or surrogates */
if ((c > UCS4_MAXUNICODE) || ((c & 0xfffe) == 0xfffe) ||
((c >= UTF16_SURR) && (c <= UTF16_MAXSURR))) ret = U4W_NOTUNCD;
/* private-use */
else if (c >= UCS4_PVTBASE) ret = U4W_PRIVATE;
/* SSP are not printing characters */
else if (c >= UCS4_SSPBASE) ret = U4W_SSPCHAR;
/* unassigned planes */
else if (c >= UCS4_UNABASE) ret = U4W_UNASSGN;
/* SIP and reserved plane 3 are wide */
else if (c >= UCS4_SIPBASE) ret = 2;
#if (UCS4_WIDLEN != UCS4_SIPBASE)
#error "UCS4_WIDLEN != UCS4_SIPBASE"
#endif
/* C0/C1 controls */
else if ((c <= UCS2_C0CONTROLEND) ||
((c >= UCS2_C1CONTROL) && (c <= UCS2_C1CONTROLEND)))
ret = U4W_CONTROL;
/* BMP and SMP get value from table */
else switch (ret = (ucs4_widthtab[(c >> 2)] >> ((3 - (c & 0x3)) << 1)) &0x3){
case 0: /* zero-width */
if (c == 0x00ad) ret = 1; /* force U+00ad (SOFT HYPHEN) to width 1 */
case 1: /* single-width */
case 2: /* double-width */
break;
case 3: /* ambiguous width */
ret = uw ? (*uw)(c) /* this is better than the line below */
: (c >= 0x2100) ? 2 : 1;/* need to do something better than this */
break;
}
return ret;
}
�
/* Return screen width of UTF-8 string
* Accepts: string
* Returns: width or negative if not valid UTF-8
*/
long utf8_strwidth (unsigned char *s)
{
unsigned long c,i,ret;
/* go through string */
for (ret = 0; *s; ret += ucs4_width (c)) {
/* It's alright to give a fake value for the byte count to utf8_get()
* since the null of a null-terminated string will stop processing anyway.
*/
i = 6; /* fake value */
if ((c = utf8_get (&s,&i)) & U8G_ERROR) return -1;
}
return ret;
}
/* Return screen width of UTF-8 text
* Accepts: SIZEDTEXT to string
* Returns: width or negative if not valid UTF-8
*/
long utf8_textwidth (SIZEDTEXT *utf8)
{
unsigned long c;
unsigned char *s = utf8->data;
unsigned long i = utf8->size;
unsigned long ret = 0;
while (i) { /* while there's a string to process */
if ((c = utf8_get (&s,&i)) & U8G_ERROR) return -1;
ret += ucs4_width (c);
}
return ret;
}
�
/* Decomposition (phew!) */
#define MORESINGLE 1 /* single UCS-4 tail value */
#define MOREMULTIPLE 2 /* multiple UCS-2 tail values */
struct decomposemore {
short type; /* type of more */
union {
unsigned long single; /* single decomposed value */
struct { /* multiple BMP values */
unsigned short *next;
unsigned long count;
} multiple;
} data;
};
#define RECURSIVEMORE struct recursivemore
RECURSIVEMORE {
struct decomposemore *more;
RECURSIVEMORE *next;
};
/* Return decomposition of a UCS-4 character
* Accepts: character or U8G_ERROR to return next from "more"
* pointer to returned more
* Returns: [next] decomposed value, more set if still more decomposition
*/
unsigned long ucs4_decompose (unsigned long c,void **more)
{
unsigned long i,ix,ret;
struct decomposemore *m;
if (c & U8G_ERROR) { /* want to chase more? */
/* do sanity check */
if ((m = (struct decomposemore *) *more) != NULL) switch (m->type) {
case MORESINGLE: /* single value */
ret = m->data.single;
fs_give (more); /* no more decomposition */
break;
case MOREMULTIPLE: /* multiple value */
ret = *m->data.multiple.next++;
if (!--m->data.multiple.count) fs_give (more);
break;
default: /* uh-oh */
fatal ("invalid more block argument to ucs4_decompose!");
}
else fatal ("no more block provided to ucs4_decompose!");
}
�
else { /* start decomposition */
*more = NIL; /* initially set no more */
/* BMP low decompositions */
if (c < UCS4_BMPLOMIN) ret = c;
/* fix this someday */
else if (c == UCS4_BMPLOMIN) ret = ucs4_dbmplotab[0];
else if (c <= UCS4_BMPLOMAX) {
/* within range - have a decomposition? */
if ((i = ucs4_dbmploixtab[c - UCS4_BMPLOMIN]) != 0L) {
/* get first value of decomposition */
ret = ucs4_dbmplotab[ix = i & UCS4_BMPLOIXMASK];
/* has continuation? */
if (i & UCS4_BMPLOSIZEMASK) {
m = (struct decomposemore *)
(*more = memset (fs_get (sizeof (struct decomposemore)),0,
sizeof (struct decomposemore)));
m->type = MOREMULTIPLE;
m->data.multiple.next = &ucs4_dbmplotab[++ix];
m->data.multiple.count = i >> UCS4_BMPLOSIZESHIFT;
}
}
else ret = c; /* in range but doesn't decompose */
}
/* BMP CJK compatibility */
else if (c < UCS4_BMPCJKMIN) ret = c;
else if (c <= UCS4_BMPCJKMAX) {
if (!(ret = ucs4_bmpcjk1decomptab[c - UCS4_BMPCJKMIN])) ret = c;
}
/* BMP CJK compatibility - some not in BMP */
#if UCS4_BMPCJK2MIN - (UCS4_BMPCJKMAX + 1)
else if (c < UCS4_BMPCJK2MIN) ret = c;
#endif
else if (c <= UCS4_BMPCJK2MAX)
ret = ucs4_bmpcjk2decomptab[c - UCS4_BMPCJK2MIN];
/* BMP high decompositions */
else if (c < UCS4_BMPHIMIN) ret = c;
else if (c <= UCS4_BMPHIMAX) {
/* within range - have a decomposition? */
if ((i = ucs4_dbmphiixtab[c - UCS4_BMPHIMIN]) != 0L) {
/* get first value of decomposition */
ret = ucs4_dbmphitab[ix = i & UCS4_BMPHIIXMASK];
/* has continuation? */
if (i & UCS4_BMPHISIZEMASK) {
m = (struct decomposemore *)
(*more = memset (fs_get (sizeof (struct decomposemore)),0,
sizeof (struct decomposemore)));
m->type = MOREMULTIPLE;
m->data.multiple.next = &ucs4_dbmphitab[++ix];
m->data.multiple.count = i >> UCS4_BMPHISIZESHIFT;
}
}
else ret = c; /* in range but doesn't decompose */
}
�
/* BMP half and full width forms */
else if (c < UCS4_BMPHALFFULLMIN) ret = c;
else if (c <= UCS4_BMPHALFFULLMAX) {
if (!(ret = ucs4_bmphalffulldecomptab[c - UCS4_BMPHALFFULLMIN])) ret = c;
}
/* SMP music */
else if (c < UCS4_SMPMUSIC1MIN) ret = c;
else if (c <= UCS4_SMPMUSIC1MAX) {
ret = ucs4_smpmusic1decomptab[c -= UCS4_SMPMUSIC1MIN][0];
m = (struct decomposemore *)
(*more = memset (fs_get (sizeof (struct decomposemore)),0,
sizeof (struct decomposemore)));
m->type = MORESINGLE;
m->data.single = ucs4_smpmusic1decomptab[c][1];
}
else if (c < UCS4_SMPMUSIC2MIN) ret = c;
else if (c <= UCS4_SMPMUSIC2MAX) {
ret = ucs4_smpmusic2decomptab[c -= UCS4_SMPMUSIC2MIN][0];
m = (struct decomposemore *)
(*more = memset (fs_get (sizeof (struct decomposemore)),0,
sizeof (struct decomposemore)));
m->type = MORESINGLE;
m->data.single = ucs4_smpmusic2decomptab[c][1];
}
/* SMP mathematical forms */
else if (c < UCS4_SMPMATHMIN) ret = c;
else if (c <= UCS4_SMPMATHMAX) {
if (!(ret = ucs4_smpmathdecomptab[c - UCS4_SMPMATHMIN])) ret = c;
}
/* CJK compatibility ideographs in SIP */
else if (!(ret = ((c >= UCS4_SIPMIN) && (c <= UCS4_SIPMAX)) ?
ucs4_sipdecomptab[c - UCS4_SIPMIN] : c)) ret = c;
}
return ret;
}
�
/* Return recursive decomposition of a UCS-4 character
* Accepts: character or U8G_ERROR to return next from "more"
* pointer to returned more
* Returns: [next] decomposed value, more set if still more decomposition
*/
unsigned long ucs4_decompose_recursive (unsigned long c,void **more)
{
unsigned long c1;
void *m,*mn;
RECURSIVEMORE *mr;
if (c & U8G_ERROR) { /* want to chase more? */
mn = NIL;
if ((mr = (RECURSIVEMORE *) *more) != NULL) switch (mr->more->type) {
case MORESINGLE: /* decompose single value */
c = ucs4_decompose_recursive (mr->more->data.single,&mn);
*more = mr->next; /* done with this more, remove it */
fs_give ((void **) &mr->more);
fs_give ((void **) &mr);
break;
case MOREMULTIPLE: /* decompose current value in multiple */
c = ucs4_decompose_recursive (*mr->more->data.multiple.next++,&mn);
/* if done with this multiple decomposition */
if (!--mr->more->data.multiple.count) {
*more = mr->next; /* done with this more, remove it */
fs_give ((void **) &mr->more);
fs_give ((void **) &mr);
}
break;
default: /* uh-oh */
fatal ("invalid more block argument to ucs4_decompose_recursive!");
}
else fatal ("no more block provided to ucs4_decompose_recursive!");
if ((mr = mn) != NULL) { /* did this value recurse on us? */
mr->next = *more; /* yes, insert new more at head */
*more = mr;
}
}
else { /* start decomposition */
*more = NIL; /* initially set no more */
mr = NIL;
do { /* repeatedly decompose this codepoint */
c = ucs4_decompose (c1 = c,&m);
if (m) { /* multi-byte decomposition */
if (c1 == c) fatal ("endless multiple decomposition!");
/* create a block to stash this more */
mr = memset (fs_get (sizeof (RECURSIVEMORE)),0,sizeof (RECURSIVEMORE));
mr->more = m; /* note the expansion */
mr->next = *more; /* old list is the tail */
*more = mr; /* and this is the new head */
}
} while (c1 != c); /* until nothing more to decompose */
}
return c;
}
void *utf8_parameters (long function,void *value)
{
void *ret;
switch(function){
case SET_UCS4WIDTH:
ucs4width = (ucs4width_t) value;
case GET_UCS4WIDTH:
ret = (void *) ucs4width;
break;
default: ret = NULL;
break;
}
return ret;
}
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