/* nl_langinfo() replacement: query locale dependent information.
Copyright (C) 2007-2022 Free Software Foundation, Inc.
This file is free software: you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as
published by the Free Software Foundation; either version 2.1 of the
License, or (at your option) any later version.
This file is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License
along with this program. If not, see . */
#include
/* Specification. */
#include
#include
#include
#include
#if defined _WIN32 && ! defined __CYGWIN__
# define WIN32_LEAN_AND_MEAN /* avoid including junk */
# include
# include
#endif
#if REPLACE_NL_LANGINFO && !NL_LANGINFO_MTSAFE
# if defined _WIN32 && !defined __CYGWIN__
# define WIN32_LEAN_AND_MEAN /* avoid including junk */
# include
# elif HAVE_PTHREAD_API
# include
# if HAVE_THREADS_H && HAVE_WEAK_SYMBOLS
# include
# pragma weak thrd_exit
# define c11_threads_in_use() (thrd_exit != NULL)
# else
# define c11_threads_in_use() 0
# endif
# elif HAVE_THREADS_H
# include
# endif
#endif
/* nl_langinfo() must be multithread-safe. To achieve this without using
thread-local storage:
1. We use a specific static buffer for each possible argument.
So that different threads can call nl_langinfo with different arguments,
without interfering.
2. We use a simple strcpy or memcpy to fill this static buffer. Filling it
through, for example, strcpy + strcat would not be guaranteed to leave
the buffer's contents intact if another thread is currently accessing
it. If necessary, the contents is first assembled in a stack-allocated
buffer. */
#if !REPLACE_NL_LANGINFO || GNULIB_defined_CODESET
/* Return the codeset of the current locale, if this is easily deducible.
Otherwise, return "". */
static char *
ctype_codeset (void)
{
static char result[2 + 10 + 1];
char buf[2 + 10 + 1];
char locale[SETLOCALE_NULL_MAX];
char *codeset;
size_t codesetlen;
if (setlocale_null_r (LC_CTYPE, locale, sizeof (locale)))
locale[0] = '\0';
codeset = buf;
codeset[0] = '\0';
if (locale[0])
{
/* If the locale name contains an encoding after the dot, return it. */
char *dot = strchr (locale, '.');
if (dot)
{
/* Look for the possible @... trailer and remove it, if any. */
char *codeset_start = dot + 1;
char const *modifier = strchr (codeset_start, '@');
if (! modifier)
codeset = codeset_start;
else
{
codesetlen = modifier - codeset_start;
if (codesetlen < sizeof buf)
{
codeset = memcpy (buf, codeset_start, codesetlen);
codeset[codesetlen] = '\0';
}
}
}
}
# if defined _WIN32 && ! defined __CYGWIN__
/* If setlocale is successful, it returns the number of the
codepage, as a string. Otherwise, fall back on Windows API
GetACP, which returns the locale's codepage as a number (although
this doesn't change according to what the 'setlocale' call specified).
Either way, prepend "CP" to make it a valid codeset name. */
codesetlen = strlen (codeset);
if (0 < codesetlen && codesetlen < sizeof buf - 2)
memmove (buf + 2, codeset, codesetlen + 1);
else
sprintf (buf + 2, "%u", GetACP ());
/* For a locale name such as "French_France.65001", in Windows 10,
setlocale now returns "French_France.utf8" instead. */
if (strcmp (buf + 2, "65001") == 0 || strcmp (buf + 2, "utf8") == 0)
return (char *) "UTF-8";
else
{
memcpy (buf, "CP", 2);
strcpy (result, buf);
return result;
}
# else
strcpy (result, codeset);
return result;
#endif
}
#endif
#if REPLACE_NL_LANGINFO
/* Override nl_langinfo with support for added nl_item values. */
# undef nl_langinfo
/* Without locking, on Solaris 11.3, test-nl_langinfo-mt fails, with message
"thread5 disturbed by threadN!", even when threadN invokes only
nl_langinfo (CODESET);
nl_langinfo (CRNCYSTR);
Similarly on Solaris 10. */
# if !NL_LANGINFO_MTSAFE /* Solaris */
# define ITEMS (MAXSTRMSG + 1)
# define MAX_RESULT_LEN 80
static char *
nl_langinfo_unlocked (nl_item item)
{
static char result[ITEMS][MAX_RESULT_LEN];
/* The result of nl_langinfo is in storage that can be overwritten by
other calls to nl_langinfo. */
char *tmp = nl_langinfo (item);
if (item >= 0 && item < ITEMS && tmp != NULL)
{
size_t tmp_len = strlen (tmp);
if (tmp_len < MAX_RESULT_LEN)
strcpy (result[item], tmp);
else
{
/* Produce a truncated result. Oh well... */
result[item][MAX_RESULT_LEN - 1] = '\0';
memcpy (result[item], tmp, MAX_RESULT_LEN - 1);
}
return result[item];
}
else
return tmp;
}
/* Use a lock, so that no two threads can invoke nl_langinfo_unlocked
at the same time. */
/* Prohibit renaming this symbol. */
# undef gl_get_nl_langinfo_lock
# if defined _WIN32 && !defined __CYGWIN__
extern __declspec(dllimport) CRITICAL_SECTION *gl_get_nl_langinfo_lock (void);
static char *
nl_langinfo_with_lock (nl_item item)
{
CRITICAL_SECTION *lock = gl_get_nl_langinfo_lock ();
char *ret;
EnterCriticalSection (lock);
ret = nl_langinfo_unlocked (item);
LeaveCriticalSection (lock);
return ret;
}
# elif HAVE_PTHREAD_API
extern
# if defined _WIN32 || defined __CYGWIN__
__declspec(dllimport)
# endif
pthread_mutex_t *gl_get_nl_langinfo_lock (void);
# if HAVE_WEAK_SYMBOLS /* musl libc, FreeBSD, NetBSD, OpenBSD, Haiku */
/* Avoid the need to link with '-lpthread'. */
# pragma weak pthread_mutex_lock
# pragma weak pthread_mutex_unlock
/* Determine whether libpthread is in use. */
# pragma weak pthread_mutexattr_gettype
/* See the comments in lock.h. */
# define pthread_in_use() \
(pthread_mutexattr_gettype != NULL || c11_threads_in_use ())
# else
# define pthread_in_use() 1
# endif
static char *
nl_langinfo_with_lock (nl_item item)
{
if (pthread_in_use())
{
pthread_mutex_t *lock = gl_get_nl_langinfo_lock ();
char *ret;
if (pthread_mutex_lock (lock))
abort ();
ret = nl_langinfo_unlocked (item);
if (pthread_mutex_unlock (lock))
abort ();
return ret;
}
else
return nl_langinfo_unlocked (item);
}
# elif HAVE_THREADS_H
extern mtx_t *gl_get_nl_langinfo_lock (void);
static char *
nl_langinfo_with_lock (nl_item item)
{
mtx_t *lock = gl_get_nl_langinfo_lock ();
char *ret;
if (mtx_lock (lock) != thrd_success)
abort ();
ret = nl_langinfo_unlocked (item);
if (mtx_unlock (lock) != thrd_success)
abort ();
return ret;
}
# endif
# else
/* On other platforms, no lock is needed. */
# define nl_langinfo_with_lock nl_langinfo
# endif
char *
rpl_nl_langinfo (nl_item item)
{
switch (item)
{
# if GNULIB_defined_CODESET
case CODESET:
return ctype_codeset ();
# endif
# if GNULIB_defined_T_FMT_AMPM
case T_FMT_AMPM:
return (char *) "%I:%M:%S %p";
# endif
# if GNULIB_defined_ALTMON
case ALTMON_1:
case ALTMON_2:
case ALTMON_3:
case ALTMON_4:
case ALTMON_5:
case ALTMON_6:
case ALTMON_7:
case ALTMON_8:
case ALTMON_9:
case ALTMON_10:
case ALTMON_11:
case ALTMON_12:
/* We don't ship the appropriate localizations with gnulib. Therefore,
treat ALTMON_i like MON_i. */
item = item - ALTMON_1 + MON_1;
break;
# endif
# if GNULIB_defined_ERA
case ERA:
/* The format is not standardized. In glibc it is a sequence of strings
of the form "direction:offset:start_date:end_date:era_name:era_format"
with an empty string at the end. */
return (char *) "";
case ERA_D_FMT:
/* The %Ex conversion in strftime behaves like %x if the locale does not
have an alternative time format. */
item = D_FMT;
break;
case ERA_D_T_FMT:
/* The %Ec conversion in strftime behaves like %c if the locale does not
have an alternative time format. */
item = D_T_FMT;
break;
case ERA_T_FMT:
/* The %EX conversion in strftime behaves like %X if the locale does not
have an alternative time format. */
item = T_FMT;
break;
case ALT_DIGITS:
/* The format is not standardized. In glibc it is a sequence of 10
strings, appended in memory. */
return (char *) "\0\0\0\0\0\0\0\0\0\0";
# endif
# if GNULIB_defined_YESEXPR || !FUNC_NL_LANGINFO_YESEXPR_WORKS
case YESEXPR:
return (char *) "^[yY]";
case NOEXPR:
return (char *) "^[nN]";
# endif
default:
break;
}
return nl_langinfo_with_lock (item);
}
#else
/* Provide nl_langinfo from scratch, either for native MS-Windows, or
for old Unix platforms without locales, such as Linux libc5 or
BeOS. */
# include
char *
nl_langinfo (nl_item item)
{
char buf[100];
struct tm tmm = { 0 };
switch (item)
{
/* nl_langinfo items of the LC_CTYPE category */
case CODESET:
{
char *codeset = ctype_codeset ();
if (*codeset)
return codeset;
}
# ifdef __BEOS__
return (char *) "UTF-8";
# else
return (char *) "ISO-8859-1";
# endif
/* nl_langinfo items of the LC_NUMERIC category */
case RADIXCHAR:
return localeconv () ->decimal_point;
case THOUSEP:
return localeconv () ->thousands_sep;
# ifdef GROUPING
case GROUPING:
return localeconv () ->grouping;
# endif
/* nl_langinfo items of the LC_TIME category.
TODO: Really use the locale. */
case D_T_FMT:
case ERA_D_T_FMT:
return (char *) "%a %b %e %H:%M:%S %Y";
case D_FMT:
case ERA_D_FMT:
return (char *) "%m/%d/%y";
case T_FMT:
case ERA_T_FMT:
return (char *) "%H:%M:%S";
case T_FMT_AMPM:
return (char *) "%I:%M:%S %p";
case AM_STR:
{
static char result[80];
if (!strftime (buf, sizeof result, "%p", &tmm))
return (char *) "AM";
strcpy (result, buf);
return result;
}
case PM_STR:
{
static char result[80];
tmm.tm_hour = 12;
if (!strftime (buf, sizeof result, "%p", &tmm))
return (char *) "PM";
strcpy (result, buf);
return result;
}
case DAY_1:
case DAY_2:
case DAY_3:
case DAY_4:
case DAY_5:
case DAY_6:
case DAY_7:
{
static char result[7][50];
static char const days[][sizeof "Wednesday"] = {
"Sunday", "Monday", "Tuesday", "Wednesday", "Thursday",
"Friday", "Saturday"
};
tmm.tm_wday = item - DAY_1;
if (!strftime (buf, sizeof result[0], "%A", &tmm))
return (char *) days[item - DAY_1];
strcpy (result[item - DAY_1], buf);
return result[item - DAY_1];
}
case ABDAY_1:
case ABDAY_2:
case ABDAY_3:
case ABDAY_4:
case ABDAY_5:
case ABDAY_6:
case ABDAY_7:
{
static char result[7][30];
static char const abdays[][sizeof "Sun"] = {
"Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat"
};
tmm.tm_wday = item - ABDAY_1;
if (!strftime (buf, sizeof result[0], "%a", &tmm))
return (char *) abdays[item - ABDAY_1];
strcpy (result[item - ABDAY_1], buf);
return result[item - ABDAY_1];
}
{
static char const months[][sizeof "September"] = {
"January", "February", "March", "April", "May", "June", "July",
"September", "October", "November", "December"
};
case MON_1:
case MON_2:
case MON_3:
case MON_4:
case MON_5:
case MON_6:
case MON_7:
case MON_8:
case MON_9:
case MON_10:
case MON_11:
case MON_12:
{
static char result[12][50];
tmm.tm_mon = item - MON_1;
if (!strftime (buf, sizeof result[0], "%B", &tmm))
return (char *) months[item - MON_1];
strcpy (result[item - MON_1], buf);
return result[item - MON_1];
}
case ALTMON_1:
case ALTMON_2:
case ALTMON_3:
case ALTMON_4:
case ALTMON_5:
case ALTMON_6:
case ALTMON_7:
case ALTMON_8:
case ALTMON_9:
case ALTMON_10:
case ALTMON_11:
case ALTMON_12:
{
static char result[12][50];
tmm.tm_mon = item - ALTMON_1;
/* The platforms without nl_langinfo() don't support strftime with
%OB. We don't even need to try. */
#if 0
if (!strftime (buf, sizeof result[0], "%OB", &tmm))
#endif
if (!strftime (buf, sizeof result[0], "%B", &tmm))
return (char *) months[item - ALTMON_1];
strcpy (result[item - ALTMON_1], buf);
return result[item - ALTMON_1];
}
}
case ABMON_1:
case ABMON_2:
case ABMON_3:
case ABMON_4:
case ABMON_5:
case ABMON_6:
case ABMON_7:
case ABMON_8:
case ABMON_9:
case ABMON_10:
case ABMON_11:
case ABMON_12:
{
static char result[12][30];
static char const abmonths[][sizeof "Jan"] = {
"Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul",
"Sep", "Oct", "Nov", "Dec"
};
tmm.tm_mon = item - ABMON_1;
if (!strftime (buf, sizeof result[0], "%b", &tmm))
return (char *) abmonths[item - ABMON_1];
strcpy (result[item - ABMON_1], buf);
return result[item - ABMON_1];
}
case ERA:
return (char *) "";
case ALT_DIGITS:
return (char *) "\0\0\0\0\0\0\0\0\0\0";
/* nl_langinfo items of the LC_MONETARY category. */
case CRNCYSTR:
return localeconv () ->currency_symbol;
# ifdef INT_CURR_SYMBOL
case INT_CURR_SYMBOL:
return localeconv () ->int_curr_symbol;
case MON_DECIMAL_POINT:
return localeconv () ->mon_decimal_point;
case MON_THOUSANDS_SEP:
return localeconv () ->mon_thousands_sep;
case MON_GROUPING:
return localeconv () ->mon_grouping;
case POSITIVE_SIGN:
return localeconv () ->positive_sign;
case NEGATIVE_SIGN:
return localeconv () ->negative_sign;
case FRAC_DIGITS:
return & localeconv () ->frac_digits;
case INT_FRAC_DIGITS:
return & localeconv () ->int_frac_digits;
case P_CS_PRECEDES:
return & localeconv () ->p_cs_precedes;
case N_CS_PRECEDES:
return & localeconv () ->n_cs_precedes;
case P_SEP_BY_SPACE:
return & localeconv () ->p_sep_by_space;
case N_SEP_BY_SPACE:
return & localeconv () ->n_sep_by_space;
case P_SIGN_POSN:
return & localeconv () ->p_sign_posn;
case N_SIGN_POSN:
return & localeconv () ->n_sign_posn;
# endif
/* nl_langinfo items of the LC_MESSAGES category
TODO: Really use the locale. */
case YESEXPR:
return (char *) "^[yY]";
case NOEXPR:
return (char *) "^[nN]";
default:
return (char *) "";
}
}
#endif