/* FUNCTION <>, <>---select or query locale INDEX setlocale INDEX localeconv INDEX _setlocale_r INDEX _localeconv_r ANSI_SYNOPSIS #include char *setlocale(int <[category]>, const char *<[locale]>); lconv *localeconv(void); char *_setlocale_r(void *<[reent]>, int <[category]>, const char *<[locale]>); lconv *_localeconv_r(void *<[reent]>); TRAD_SYNOPSIS #include char *setlocale(<[category]>, <[locale]>) int <[category]>; char *<[locale]>; lconv *localeconv(); char *_setlocale_r(<[reent]>, <[category]>, <[locale]>) char *<[reent]>; int <[category]>; char *<[locale]>; lconv *_localeconv_r(<[reent]>); char *<[reent]>; DESCRIPTION <> is the facility defined by ANSI C to condition the execution environment for international collating and formatting information; <> reports on the settings of the current locale. This is a minimal implementation, supporting only the required <<"POSIX">> and <<"C">> values for <[locale]>; strings representing other locales are not honored unless _MB_CAPABLE is defined. If _MB_CAPABLE is defined, POSIX locale strings are allowed, following the form language[_TERRITORY][.charset][@@modifier] <<"language">> is a two character string per ISO 639, or, if not available for a given language, a three character string per ISO 639-3. <<"TERRITORY">> is a country code per ISO 3166. For <<"charset">> and <<"modifier">> see below. Additionally to the POSIX specifier, the following extension is supported for backward compatibility with older implementations using newlib: <<"C-charset">>. Instead of <<"C-">>, you can also specify <<"C.">>. Both variations allow to specify language neutral locales while using other charsets than ASCII, for instance <<"C.UTF-8">>, which keeps all settings as in the C locale, but uses the UTF-8 charset. The following charsets are recognized: <<"UTF-8">>, <<"JIS">>, <<"EUCJP">>, <<"SJIS">>, <<"KOI8-R">>, <<"KOI8-U">>, <<"GEORGIAN-PS">>, <<"PT154">>, <<"TIS-620">>, <<"ISO-8859-x">> with 1 <= x <= 16, or <<"CPxxx">> with xxx in [437, 720, 737, 775, 850, 852, 855, 857, 858, 862, 866, 874, 932, 1125, 1250, 1251, 1252, 1253, 1254, 1255, 1256, 1257, 1258]. Charsets are case insensitive. For instance, <<"EUCJP">> and <<"eucJP">> are equivalent. Charset names with dashes can also be written without dashes, as in <<"UTF8">>, <<"iso88591">> or <<"koi8r">>. <<"EUCJP">> and <<"EUCKR">> are also recognized with dash, <<"EUC-JP">> and <<"EUC-KR">>. Full support for all of the above charsets requires that newlib has been build with multibyte support and support for all ISO and Windows Codepage. Otherwise all singlebyte charsets are simply mapped to ASCII. Right now, only newlib for Cygwin is built with full charset support by default. Under Cygwin, this implementation additionally supports the charsets <<"GBK">>, <<"GB2312">>, <<"eucCN">>, <<"eucKR">>, and <<"Big5">>. Cygwin does not support <<"JIS">>. Cygwin additionally supports locales from the file /usr/share/locale/locale.alias. (<<"">> is also accepted; if given, the settings are read from the corresponding LC_* environment variables and $LANG according to POSIX rules. This implementation also supports the modifier <<"cjknarrow">>, which affects how the functions <> and <> handle characters from the "CJK Ambiguous Width" category of characters described at http://www.unicode.org/reports/tr11/#Ambiguous. These characters have a width of 1 for singlebyte charsets and a width of 2 for multibyte charsets other than UTF-8. For UTF-8, their width depends on the language specifier: it is 2 for <<"zh">> (Chinese), <<"ja">> (Japanese), and <<"ko">> (Korean), and 1 for everything else. Specifying <<"cjknarrow">> forces a width of 1, independent of charset and language. If you use <> as the <[locale]> argument, <> returns a pointer to the string representing the current locale. The acceptable values for <[category]> are defined in `<>' as macros beginning with <<"LC_">>. <> returns a pointer to a structure (also defined in `<>') describing the locale-specific conventions currently in effect. <<_localeconv_r>> and <<_setlocale_r>> are reentrant versions of <> and <> respectively. The extra argument <[reent]> is a pointer to a reentrancy structure. RETURNS A successful call to <> returns a pointer to a string associated with the specified category for the new locale. The string returned by <> is such that a subsequent call using that string will restore that category (or all categories in case of LC_ALL), to that state. The application shall not modify the string returned which may be overwritten by a subsequent call to <>. On error, <> returns <>. <> returns a pointer to a structure of type <>, which describes the formatting and collating conventions in effect (in this implementation, always those of the C locale). PORTABILITY ANSI C requires <>, but the only locale required across all implementations is the C locale. NOTES There is no ISO-8859-12 codepage. It's also refused by this implementation. No supporting OS subroutines are required. */ /* Parts of this code are originally taken from FreeBSD. */ /* * Copyright (c) 1996 - 2002 FreeBSD Project * Copyright (c) 1991, 1993 * The Regents of the University of California. All rights reserved. * * This code is derived from software contributed to Berkeley by * Paul Borman at Krystal Technologies. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include #include #include #include #include #include #include #include #include "lmessages.h" #include "lmonetary.h" #include "lnumeric.h" #include "lctype.h" #include "../stdlib/local.h" #define _LC_LAST 7 #define ENCODING_LEN 31 int __EXPORT __mb_cur_max = 1; int __nlocale_changed = 0; int __mlocale_changed = 0; char *_PathLocale = NULL; static struct lconv lconv = { ".", "", "", "", "", "", "", "", "", "", CHAR_MAX, CHAR_MAX, CHAR_MAX, CHAR_MAX, CHAR_MAX, CHAR_MAX, CHAR_MAX, CHAR_MAX, CHAR_MAX, CHAR_MAX, CHAR_MAX, CHAR_MAX, CHAR_MAX, CHAR_MAX }; #ifdef _MB_CAPABLE /* * Category names for getenv() */ static char *categories[_LC_LAST] = { "LC_ALL", "LC_COLLATE", "LC_CTYPE", "LC_MONETARY", "LC_NUMERIC", "LC_TIME", "LC_MESSAGES", }; /* * Default locale per POSIX. Can be overridden on a per-target base. */ #ifndef DEFAULT_LOCALE #define DEFAULT_LOCALE "C" #endif /* * This variable can be changed by any outside mechanism. This allows, * for instance, to load the default locale from a file. */ char __default_locale[ENCODING_LEN + 1] = DEFAULT_LOCALE; /* * Current locales for each category */ static char current_categories[_LC_LAST][ENCODING_LEN + 1] = { "C", "C", "C", "C", "C", "C", "C", }; /* * The locales we are going to try and load */ static char new_categories[_LC_LAST][ENCODING_LEN + 1]; static char saved_categories[_LC_LAST][ENCODING_LEN + 1]; static char current_locale_string[_LC_LAST * (ENCODING_LEN + 1/*"/"*/ + 1)]; static char *currentlocale(void); static char *loadlocale(struct _reent *, int); static const char *__get_locale_env(struct _reent *, int); #endif /* _MB_CAPABLE */ #if 0 /*def __CYGWIN__ TODO: temporarily(?) disable C == UTF-8 */ static char lc_ctype_charset[ENCODING_LEN + 1] = "UTF-8"; static char lc_message_charset[ENCODING_LEN + 1] = "UTF-8"; #else static char lc_ctype_charset[ENCODING_LEN + 1] = "ASCII"; static char lc_message_charset[ENCODING_LEN + 1] = "ASCII"; #endif static int lc_ctype_cjk_lang = 0; char * _DEFUN(_setlocale_r, (p, category, locale), struct _reent *p _AND int category _AND _CONST char *locale) { #ifndef _MB_CAPABLE if (locale) { if (strcmp (locale, "POSIX") && strcmp (locale, "C") && strcmp (locale, "")) return NULL; } return "C"; #else /* !_MB_CAPABLE */ int i, j, len, saverr; const char *env, *r; if (category < LC_ALL || category >= _LC_LAST) { p->_errno = EINVAL; return NULL; } if (locale == NULL) return category != LC_ALL ? current_categories[category] : currentlocale(); /* * Default to the current locale for everything. */ for (i = 1; i < _LC_LAST; ++i) strcpy (new_categories[i], current_categories[i]); /* * Now go fill up new_categories from the locale argument */ if (!*locale) { if (category == LC_ALL) { for (i = 1; i < _LC_LAST; ++i) { env = __get_locale_env (p, i); if (strlen (env) > ENCODING_LEN) { p->_errno = EINVAL; return NULL; } strcpy (new_categories[i], env); } } else { env = __get_locale_env (p, category); if (strlen (env) > ENCODING_LEN) { p->_errno = EINVAL; return NULL; } strcpy (new_categories[category], env); } } else if (category != LC_ALL) { if (strlen (locale) > ENCODING_LEN) { p->_errno = EINVAL; return NULL; } strcpy (new_categories[category], locale); } else { if ((r = strchr (locale, '/')) == NULL) { if (strlen (locale) > ENCODING_LEN) { p->_errno = EINVAL; return NULL; } for (i = 1; i < _LC_LAST; ++i) strcpy (new_categories[i], locale); } else { for (i = 1; r[1] == '/'; ++r) ; if (!r[1]) { p->_errno = EINVAL; return NULL; /* Hmm, just slashes... */ } do { if (i == _LC_LAST) break; /* Too many slashes... */ if ((len = r - locale) > ENCODING_LEN) { p->_errno = EINVAL; return NULL; } strlcpy (new_categories[i], locale, len + 1); i++; while (*r == '/') r++; locale = r; while (*r && *r != '/') r++; } while (*locale); while (i < _LC_LAST) { strcpy (new_categories[i], new_categories[i-1]); i++; } } } if (category != LC_ALL) return loadlocale (p, category); for (i = 1; i < _LC_LAST; ++i) { strcpy (saved_categories[i], current_categories[i]); if (loadlocale (p, i) == NULL) { saverr = p->_errno; for (j = 1; j < i; j++) { strcpy (new_categories[j], saved_categories[j]); if (loadlocale (p, j) == NULL) { strcpy (new_categories[j], "C"); loadlocale (p, j); } } p->_errno = saverr; return NULL; } } return currentlocale (); #endif /* !_MB_CAPABLE */ } #ifdef _MB_CAPABLE static char * currentlocale() { int i; (void)strcpy(current_locale_string, current_categories[1]); for (i = 2; i < _LC_LAST; ++i) if (strcmp(current_categories[1], current_categories[i])) { for (i = 2; i < _LC_LAST; ++i) { (void)strcat(current_locale_string, "/"); (void)strcat(current_locale_string, current_categories[i]); } break; } return (current_locale_string); } #endif /* _MB_CAPABLE */ #ifdef _MB_CAPABLE #ifdef __CYGWIN__ extern void __set_charset_from_locale (const char *locale, char *charset); extern int __set_locale_from_locale_alias (const char *, char *); extern int __collate_load_locale (const char *, void *, const char *); #endif /* __CYGWIN__ */ extern void __set_ctype (const char *charset); static char * loadlocale(struct _reent *p, int category) { /* At this point a full-featured system would just load the locale specific data from the locale files. What we do here for now is to check the incoming string for correctness. The string must be in one of the allowed locale strings, either one in POSIX-style, or one in the old newlib style to maintain backward compatibility. If the local string is correct, the charset is extracted and stored in lc_ctype_charset or lc_message_charset dependent on the cateogry. */ char *locale = NULL; char charset[ENCODING_LEN + 1]; unsigned long val; char *end, *c = NULL; int mbc_max; int (*l_wctomb) (struct _reent *, char *, wchar_t, const char *, mbstate_t *); int (*l_mbtowc) (struct _reent *, wchar_t *, const char *, size_t, const char *, mbstate_t *); int cjknarrow = 0; /* Avoid doing everything twice if nothing has changed. */ if (!strcmp (new_categories[category], current_categories[category])) return current_categories[category]; #ifdef __CYGWIN__ /* This additional code handles the case that the incoming locale string is not valid. If so, it calls the function __set_locale_from_locale_alias, which is only available on Cygwin right now. The function reads the file /usr/share/locale/locale.alias. The file contains locale aliases and their replacement locale. For instance, the alias "french" is translated to "fr_FR.ISO-8859-1", the alias "thai" is translated to "th_TH.TIS-620". If successful, the function returns with a pointer to the second argument, which is a buffer in which the replacement locale gets stored. Otherwise the function returns NULL. */ char tmp_locale[ENCODING_LEN + 1]; int ret = 0; restart: if (!locale) locale = new_categories[category]; else if (locale != tmp_locale) { locale = __set_locale_from_locale_alias (locale, tmp_locale); if (!locale) return NULL; } # define FAIL goto restart #else locale = new_categories[category]; # define FAIL return NULL #endif /* "POSIX" is translated to "C", as on Linux. */ if (!strcmp (locale, "POSIX")) strcpy (locale, "C"); if (!strcmp (locale, "C")) /* Default "C" locale */ #if 0 /*def __CYGWIN__ TODO: temporarily(?) disable C == UTF-8 */ strcpy (charset, "UTF-8"); #else strcpy (charset, "ASCII"); #endif else if (locale[0] == 'C' && (locale[1] == '-' /* Old newlib style */ || locale[1] == '.')) /* Extension for the C locale to allow specifying different charsets while sticking to the C locale in terms of sort order, etc. Proposed in the Debian project. */ { char *chp; c = locale + 2; strcpy (charset, c); if ((chp = strchr (charset, '@'))) /* Strip off modifier */ *chp = '\0'; c += strlen (charset); } else /* POSIX style */ { c = locale; /* Don't use ctype macros here, they might be localized. */ /* Language */ if (c[0] < 'a' || c[0] > 'z' || c[1] < 'a' || c[1] > 'z') FAIL; c += 2; /* Allow three character Language per ISO 639-3 */ if (c[0] >= 'a' && c[0] <= 'z') ++c; if (c[0] == '_') { /* Territory */ ++c; if (c[0] < 'A' || c[0] > 'Z' || c[1] < 'A' || c[1] > 'Z') FAIL; c += 2; } if (c[0] == '.') { /* Charset */ char *chp; ++c; strcpy (charset, c); if ((chp = strchr (charset, '@'))) /* Strip off modifier */ *chp = '\0'; c += strlen (charset); } else if (c[0] == '\0' || c[0] == '@') /* End of string or just a modifier */ #ifdef __CYGWIN__ /* The Cygwin-only function __set_charset_from_locale checks for the default charset which is connected to the given locale. The function uses Windows functions in turn so it can't be easily adapted to other targets. However, if any other target provides equivalent functionality, preferrably using the same function name it would be sufficient to change the guarding #ifdef. */ __set_charset_from_locale (locale, charset); #else strcpy (charset, "ISO-8859-1"); #endif else /* Invalid string */ FAIL; } if (c && c[0] == '@') { /* Modifier */ /* Only one modifier is recognized right now. "cjknarrow" is used to modify the behaviour of wcwidth() for East Asian languages. For details see the comment at the end of this function. */ if (!strcmp (c + 1, "cjknarrow")) cjknarrow = 1; } /* We only support this subset of charsets. */ switch (charset[0]) { case 'U': case 'u': if (strcasecmp (charset, "UTF-8") && strcasecmp (charset, "UTF8")) FAIL; strcpy (charset, "UTF-8"); mbc_max = 6; l_wctomb = __utf8_wctomb; l_mbtowc = __utf8_mbtowc; break; #ifndef __CYGWIN__ /* Cygwin does not support JIS at all. */ case 'J': case 'j': if (strcasecmp (charset, "JIS")) FAIL; strcpy (charset, "JIS"); mbc_max = 8; l_wctomb = __jis_wctomb; l_mbtowc = __jis_mbtowc; break; #endif /* !__CYGWIN__ */ case 'E': case 'e': if (strncasecmp (charset, "EUC", 3)) FAIL; c = charset + 3; if (*c == '-') ++c; if (!strcasecmp (c, "JP")) { strcpy (charset, "EUCJP"); mbc_max = 3; l_wctomb = __eucjp_wctomb; l_mbtowc = __eucjp_mbtowc; } #ifdef __CYGWIN__ /* Newlib does neither provide EUC-KR nor EUC-CN, and Cygwin's implementation requires Windows support. */ else if (!strcasecmp (c, "KR")) { strcpy (charset, "EUCKR"); mbc_max = 2; l_wctomb = __kr_wctomb; l_mbtowc = __kr_mbtowc; } else if (!strcasecmp (c, "CN")) { strcpy (charset, "EUCCN"); mbc_max = 2; l_wctomb = __gbk_wctomb; l_mbtowc = __gbk_mbtowc; } #endif /* __CYGWIN__ */ else FAIL; break; case 'S': case 's': if (strcasecmp (charset, "SJIS")) FAIL; strcpy (charset, "SJIS"); mbc_max = 2; l_wctomb = __sjis_wctomb; l_mbtowc = __sjis_mbtowc; break; case 'I': case 'i': /* Must be exactly one of ISO-8859-1, [...] ISO-8859-16, except for ISO-8859-12. This code also recognizes the aliases without dashes. */ if (strncasecmp (charset, "ISO", 3)) FAIL; c = charset + 3; if (*c == '-') ++c; if (strncasecmp (c, "8859", 4)) FAIL; c += 4; if (*c == '-') ++c; val = _strtol_r (p, c, &end, 10); if (val < 1 || val > 16 || val == 12 || *end) FAIL; strcpy (charset, "ISO-8859-"); c = charset + 9; if (val > 10) *c++ = '1'; *c++ = val % 10 + '0'; *c = '\0'; mbc_max = 1; #ifdef _MB_EXTENDED_CHARSETS_ISO l_wctomb = __iso_wctomb; l_mbtowc = __iso_mbtowc; #else /* !_MB_EXTENDED_CHARSETS_ISO */ l_wctomb = __ascii_wctomb; l_mbtowc = __ascii_mbtowc; #endif /* _MB_EXTENDED_CHARSETS_ISO */ break; case 'C': case 'c': if (charset[1] != 'P' && charset[1] != 'p') FAIL; strncpy (charset, "CP", 2); val = _strtol_r (p, charset + 2, &end, 10); if (*end) FAIL; switch (val) { case 437: case 720: case 737: case 775: case 850: case 852: case 855: case 857: case 858: case 862: case 866: case 874: case 1125: case 1250: case 1251: case 1252: case 1253: case 1254: case 1255: case 1256: case 1257: case 1258: mbc_max = 1; #ifdef _MB_EXTENDED_CHARSETS_WINDOWS l_wctomb = __cp_wctomb; l_mbtowc = __cp_mbtowc; #else /* !_MB_EXTENDED_CHARSETS_WINDOWS */ l_wctomb = __ascii_wctomb; l_mbtowc = __ascii_mbtowc; #endif /* _MB_EXTENDED_CHARSETS_WINDOWS */ break; case 932: mbc_max = 2; l_wctomb = __sjis_wctomb; l_mbtowc = __sjis_mbtowc; break; default: FAIL; } break; case 'K': case 'k': /* KOI8-R, KOI8-U and the aliases without dash */ if (strncasecmp (charset, "KOI8", 4)) FAIL; c = charset + 4; if (*c == '-') ++c; if (*c == 'R' || *c == 'r') strcpy (charset, "CP20866"); else if (*c == 'U' || *c == 'u') strcpy (charset, "CP21866"); else FAIL; mbc_max = 1; #ifdef _MB_EXTENDED_CHARSETS_WINDOWS l_wctomb = __cp_wctomb; l_mbtowc = __cp_mbtowc; #else /* !_MB_EXTENDED_CHARSETS_WINDOWS */ l_wctomb = __ascii_wctomb; l_mbtowc = __ascii_mbtowc; #endif /* _MB_EXTENDED_CHARSETS_WINDOWS */ break; case 'A': case 'a': if (strcasecmp (charset, "ASCII")) FAIL; strcpy (charset, "ASCII"); mbc_max = 1; l_wctomb = __ascii_wctomb; l_mbtowc = __ascii_mbtowc; break; case 'G': case 'g': #ifdef __CYGWIN__ /* Newlib does not provide GBK/GB2312 and Cygwin's implementation requires Windows support. */ if (!strcasecmp (charset, "GBK") || !strcasecmp (charset, "GB2312")) { strcpy (charset, charset[2] == '2' ? "GB2312" : "GBK"); mbc_max = 2; l_wctomb = __gbk_wctomb; l_mbtowc = __gbk_mbtowc; } else #endif /* __CYGWIN__ */ /* GEORGIAN-PS and the alias without dash */ if (!strncasecmp (charset, "GEORGIAN", 8)) { c = charset + 8; if (*c == '-') ++c; if (strcasecmp (c, "PS")) FAIL; strcpy (charset, "CP101"); mbc_max = 1; #ifdef _MB_EXTENDED_CHARSETS_WINDOWS l_wctomb = __cp_wctomb; l_mbtowc = __cp_mbtowc; #else /* !_MB_EXTENDED_CHARSETS_WINDOWS */ l_wctomb = __ascii_wctomb; l_mbtowc = __ascii_mbtowc; #endif /* _MB_EXTENDED_CHARSETS_WINDOWS */ } else FAIL; break; case 'P': case 'p': /* PT154 */ if (strcasecmp (charset, "PT154")) FAIL; strcpy (charset, "CP102"); mbc_max = 1; #ifdef _MB_EXTENDED_CHARSETS_WINDOWS l_wctomb = __cp_wctomb; l_mbtowc = __cp_mbtowc; #else /* !_MB_EXTENDED_CHARSETS_WINDOWS */ l_wctomb = __ascii_wctomb; l_mbtowc = __ascii_mbtowc; #endif /* _MB_EXTENDED_CHARSETS_WINDOWS */ break; case 'T': case 't': if (strncasecmp (charset, "TIS", 3)) FAIL; c = charset + 3; if (*c == '-') ++c; if (strcasecmp (c, "620")) FAIL; strcpy (charset, "CP874"); mbc_max = 1; #ifdef _MB_EXTENDED_CHARSETS_WINDOWS l_wctomb = __cp_wctomb; l_mbtowc = __cp_mbtowc; #else /* !_MB_EXTENDED_CHARSETS_WINDOWS */ l_wctomb = __ascii_wctomb; l_mbtowc = __ascii_mbtowc; #endif /* _MB_EXTENDED_CHARSETS_WINDOWS */ break; #ifdef __CYGWIN__ /* Newlib does not provide Big5 and Cygwin's implementation requires Windows support. */ case 'B': case 'b': if (strcasecmp (charset, "BIG5")) FAIL; strcpy (charset, "BIG5"); mbc_max = 2; l_wctomb = __big5_wctomb; l_mbtowc = __big5_mbtowc; break; #endif /* __CYGWIN__ */ default: FAIL; } switch (category) { case LC_CTYPE: strcpy (lc_ctype_charset, charset); __mb_cur_max = mbc_max; __wctomb = l_wctomb; __mbtowc = l_mbtowc; __set_ctype (charset); /* Determine the width for the "CJK Ambiguous Width" category of characters. This is used in wcwidth(). Assume single width for single-byte charsets, and double width for multi-byte charsets other than UTF-8. For UTF-8, use double width for the East Asian languages ("ja", "ko", "zh"), and single width for everything else. Single width can also be forced with the "@cjknarrow" modifier. */ lc_ctype_cjk_lang = !cjknarrow && mbc_max > 1 && (charset[0] != 'U' || strncmp (locale, "ja", 2) == 0 || strncmp (locale, "ko", 2) == 0 || strncmp (locale, "zh", 2) == 0); #ifdef __HAVE_LOCALE_INFO__ ret = __ctype_load_locale (locale, (void *) l_wctomb, charset, mbc_max); #endif /* __HAVE_LOCALE_INFO__ */ break; case LC_MESSAGES: strcpy (lc_message_charset, charset); #ifdef __HAVE_LOCALE_INFO__ ret = __messages_load_locale (locale, (void *) l_wctomb, charset); if (!ret) #endif /* __HAVE_LOCALE_INFO__ */ break; #ifdef __HAVE_LOCALE_INFO__ #ifdef __CYGWIN__ /* Right now only Cygwin supports a __collate_load_locale function at all. */ case LC_COLLATE: ret = __collate_load_locale (locale, (void *) l_mbtowc, charset); break; #endif case LC_MONETARY: ret = __monetary_load_locale (locale, (void *) l_wctomb, charset); break; case LC_NUMERIC: ret = __numeric_load_locale (locale, (void *) l_wctomb, charset); break; case LC_TIME: ret = __time_load_locale (locale, (void *) l_wctomb, charset); break; #endif /* __HAVE_LOCALE_INFO__ */ default: break; } #ifdef __HAVE_LOCALE_INFO__ if (ret) FAIL; #endif /* __HAVE_LOCALE_INFO__ */ return strcpy(current_categories[category], new_categories[category]); } static const char * __get_locale_env(struct _reent *p, int category) { const char *env; /* 1. check LC_ALL. */ env = _getenv_r (p, categories[0]); /* 2. check LC_* */ if (env == NULL || !*env) env = _getenv_r (p, categories[category]); /* 3. check LANG */ if (env == NULL || !*env) env = _getenv_r (p, "LANG"); /* 4. if none is set, fall to default locale */ if (env == NULL || !*env) env = __default_locale; return env; } #endif /* _MB_CAPABLE */ char * _DEFUN_VOID(__locale_charset) { #if 0//def __HAVE_LOCALE_INFO__ return __get_current_ctype_locale ()->codeset; #else return lc_ctype_charset; #endif } int _DEFUN_VOID(__locale_mb_cur_max) { #if 0//def __HAVE_LOCALE_INFO__ return __get_current_ctype_locale ()->mb_cur_max[0]; #else return __mb_cur_max; #endif } char * _DEFUN_VOID(__locale_msgcharset) { #ifdef __HAVE_LOCALE_INFO__ return __get_current_messages_locale ()->codeset; #else return lc_message_charset; #endif } int _DEFUN_VOID(__locale_cjk_lang) { return lc_ctype_cjk_lang; } struct lconv * _DEFUN(_localeconv_r, (data), struct _reent *data) { #ifdef __HAVE_LOCALE_INFO__ if (__nlocale_changed) { struct lc_numeric_T *n = __get_current_numeric_locale (); lconv.decimal_point = n->decimal_point; lconv.thousands_sep = n->thousands_sep; lconv.grouping = n->grouping; __nlocale_changed = 0; } if (__mlocale_changed) { struct lc_monetary_T *m = __get_current_monetary_locale (); lconv.int_curr_symbol = m->int_curr_symbol; lconv.currency_symbol = m->currency_symbol; lconv.mon_decimal_point = m->mon_decimal_point; lconv.mon_thousands_sep = m->mon_thousands_sep; lconv.mon_grouping = m->mon_grouping; lconv.positive_sign = m->positive_sign; lconv.negative_sign = m->negative_sign; lconv.int_frac_digits = m->int_frac_digits[0]; lconv.frac_digits = m->frac_digits[0]; lconv.p_cs_precedes = m->p_cs_precedes[0]; lconv.p_sep_by_space = m->p_sep_by_space[0]; lconv.n_cs_precedes = m->n_cs_precedes[0]; lconv.n_sep_by_space = m->n_sep_by_space[0]; lconv.p_sign_posn = m->p_sign_posn[0]; lconv.n_sign_posn = m->n_sign_posn[0]; #ifdef __HAVE_LOCALE_INFO_EXTENDED__ lconv.int_p_cs_precedes = m->int_p_cs_precedes[0]; lconv.int_p_sep_by_space = m->int_p_sep_by_space[0]; lconv.int_n_cs_precedes = m->int_n_cs_precedes[0]; lconv.int_n_sep_by_space = m->int_n_sep_by_space[0]; lconv.int_n_sign_posn = m->int_n_sign_posn[0]; lconv.int_p_sign_posn = m->int_p_sign_posn[0]; #else /* !__HAVE_LOCALE_INFO_EXTENDED__ */ lconv.int_p_cs_precedes = m->p_cs_precedes[0]; lconv.int_p_sep_by_space = m->p_sep_by_space[0]; lconv.int_n_cs_precedes = m->n_cs_precedes[0]; lconv.int_n_sep_by_space = m->n_sep_by_space[0]; lconv.int_n_sign_posn = m->n_sign_posn[0]; lconv.int_p_sign_posn = m->p_sign_posn[0]; #endif /* !__HAVE_LOCALE_INFO_EXTENDED__ */ __mlocale_changed = 0; } #endif /* __HAVE_LOCALE_INFO__ */ return (struct lconv *) &lconv; } #ifndef _REENT_ONLY #ifndef __CYGWIN__ /* Cygwin provides its own version of setlocale to perform some more initialization work. It calls _setlocale_r, though. */ char * _DEFUN(setlocale, (category, locale), int category _AND _CONST char *locale) { return _setlocale_r (_REENT, category, locale); } #endif /* __CYGWIN__ */ struct lconv * _DEFUN_VOID(localeconv) { return _localeconv_r (_REENT); } #endif