locale - description of multilanguage support
A locale is a set of language and cultural rules. These cover
aspects such as language for messages, different character sets,
lexicographic conventions, and so on. A program needs to be able to
determine its locale and act accordingly to be portable to different
cultures.
The header <locale.h> declares data types, functions,
and macros which are useful in this task.
The functions it declares are setlocale(3) to set the
current locale, and localeconv(3) to get information about number
formatting.
There are different categories for locale information a program
might need; they are declared as macros. Using them as the first argument to
the setlocale(3) function, it is possible to set one of these to the
desired locale:
- LC_ADDRESS
(GNU extension, since glibc 2.2)
- Change settings that describe the formats (e.g., postal addresses) used to
describe locations and geography-related items. Applications that need
this information can use nl_langinfo(3) to retrieve nonstandard
elements, such as _NL_ADDRESS_COUNTRY_NAME (country name, in the
language of the locale) and _NL_ADDRESS_LANG_NAME (language name,
in the language of the locale), which return strings such as
"Deutschland" and "Deutsch" (for German-language
locales). (Other element names are listed in
<langinfo.h>.)
- LC_COLLATE
- This category governs the collation rules used for sorting and regular
expressions, including character equivalence classes and multicharacter
collating elements. This locale category changes the behavior of the
functions strcoll(3) and strxfrm(3), which are used to
compare strings in the local alphabet. For example, the German sharp s is
sorted as "ss".
- LC_CTYPE
- This category determines the interpretation of byte sequences as
characters (e.g., single versus multibyte characters), character
classifications (e.g., alphabetic or digit), and the behavior of character
classes. On glibc systems, this category also determines the character
transliteration rules for iconv(1) and iconv(3). It changes
the behavior of the character handling and classification functions, such
as isupper(3) and toupper(3), and the multibyte character
functions such as mblen(3) or wctomb(3).
- LC_IDENTIFICATION
(GNU extension, since glibc 2.2)
- Change settings that relate to the metadata for the locale. Applications
that need this information can use nl_langinfo(3) to retrieve
nonstandard elements, such as _NL_IDENTIFICATION_TITLE (title of
this locale document) and _NL_IDENTIFICATION_TERRITORY
(geographical territory to which this locale document applies), which
might return strings such as "English locale for the USA" and
"USA". (Other element names are listed in
<langinfo.h>.)
- LC_MONETARY
- This category determines the formatting used for monetary-related numeric
values. This changes the information returned by localeconv(3),
which describes the way numbers are usually printed, with details such as
decimal point versus decimal comma. This information is internally used by
the function strfmon(3).
- LC_MESSAGES
- This category affects the language in which messages are displayed and
what an affirmative or negative answer looks like. The GNU C library
contains the gettext(3), ngettext(3), and rpmatch(3)
functions to ease the use of this information. The GNU gettext family of
functions also obey the environment variable LANGUAGE (containing a
colon-separated list of locales) if the category is set to a valid locale
other than "C". This category also affects the behavior
of catopen(3).
- LC_MEASUREMENT
(GNU extension, since glibc 2.2)
- Change the settings relating to the measurement system in the locale
(i.e., metric versus US customary units). Applications can use
nl_langinfo(3) to retrieve the nonstandard
_NL_MEASUREMENT_MEASUREMENT element, which returns a pointer to a
character that has the value 1 (metric) or 2 (US customary units).
- LC_NAME (GNU
extension, since glibc 2.2)
- Change settings that describe the formats used to address persons.
Applications that need this information can use nl_langinfo(3) to
retrieve nonstandard elements, such as _NL_NAME_NAME_MR (general
salutation for men) and _NL_NAME_NAME_MS (general salutation for
women) elements, which return strings such as "Herr" and
"Frau" (for German-language locales). (Other element names are
listed in <langinfo.h>.)
- LC_NUMERIC
- This category determines the formatting rules used for nonmonetary numeric
values—for example, the thousands separator and the radix character
(a period in most English-speaking countries, but a comma in many other
regions). It affects functions such as printf(3), scanf(3),
and strtod(3). This information can also be read with the
localeconv(3) function.
- LC_PAPER (GNU
extension, since glibc 2.2)
- Change the settings relating to the dimensions of the standard paper size
(e.g., US letter versus A4). Applications that need the dimensions can
obtain them by using nl_langinfo(3) to retrieve the nonstandard
_NL_PAPER_WIDTH and _NL_PAPER_HEIGHT elements, which return
int values specifying the dimensions in millimeters.
- LC_TELEPHONE
(GNU extension, since glibc 2.2)
- Change settings that describe the formats to be used with telephone
services. Applications that need this information can use
nl_langinfo(3) to retrieve nonstandard elements, such as
_NL_TELEPHONE_INT_PREFIX (international prefix used to call numbers
in this locale), which returns a string such as "49" (for
Germany). (Other element names are listed in
<langinfo.h>.)
- LC_TIME
- This category governs the formatting used for date and time values. For
example, most of Europe uses a 24-hour clock versus the 12-hour clock used
in the United States. The setting of this category affects the behavior of
functions such as strftime(3) and strptime(3).
- LC_ALL
- All of the above.
If the second argument to setlocale(3) is an empty string,
"", for the default locale, it is determined using the
following steps:
- (1)
- If there is a non-null environment variable LC_ALL, the value of
LC_ALL is used.
- (2)
- If an environment variable with the same name as one of the categories
above exists and is non-null, its value is used for that category.
- (3)
- If there is a non-null environment variable LANG, the value of
LANG is used.
Values about local numeric formatting is made available in a
struct lconv returned by the localeconv(3) function, which has
the following declaration:
struct lconv {
/* Numeric (nonmonetary) information */
char *decimal_point; /* Radix character */
char *thousands_sep; /* Separator for digit groups to left
of radix character */
char *grouping; /* Each element is the number of digits in
a group; elements with higher indices
are further left. An element with value
CHAR_MAX means that no further grouping
is done. An element with value 0 means
that the previous element is used for
all groups further left. */
/* Remaining fields are for monetary information */
char *int_curr_symbol; /* First three chars are a currency
symbol from ISO 4217. Fourth char
is the separator. Fifth char
is '\0'. */
char *currency_symbol; /* Local currency symbol */
char *mon_decimal_point; /* Radix character */
char *mon_thousands_sep; /* Like thousands_sep above */
char *mon_grouping; /* Like grouping above */
char *positive_sign; /* Sign for positive values */
char *negative_sign; /* Sign for negative values */
char int_frac_digits; /* International fractional digits */
char frac_digits; /* Local fractional digits */
char p_cs_precedes; /* 1 if currency_symbol precedes a
positive value, 0 if succeeds */
char p_sep_by_space; /* 1 if a space separates
currency_symbol from a positive
value */
char n_cs_precedes; /* 1 if currency_symbol precedes a
negative value, 0 if succeeds */
char n_sep_by_space; /* 1 if a space separates
currency_symbol from a negative
value */
/* Positive and negative sign positions:
0 Parentheses surround the quantity and currency_symbol.
1 The sign string precedes the quantity and currency_symbol.
2 The sign string succeeds the quantity and currency_symbol.
3 The sign string immediately precedes the currency_symbol.
4 The sign string immediately succeeds the currency_symbol. */
char p_sign_posn;
char n_sign_posn;
};
POSIX.1-2008 standardized a number of extensions to the locale
API, based on implementations that first appeared in glibc 2.3. These
extensions are designed to address the problem that the traditional locale
APIs do not mix well with multithreaded applications and with applications
that must deal with multiple locales.
The extensions take the form of new functions for creating and
manipulating locale objects (newlocale(3), freelocale(3),
duplocale(3), and uselocale(3)) and various new library
functions with the suffix "_l" (e.g., toupper_l(3)) that
extend the traditional locale-dependent APIs (e.g., toupper(3)) to
allow the specification of a locale object that should apply when executing
the function.
The following environment variable is used by newlocale(3)
and setlocale(3), and thus affects all unprivileged localized
programs:
- LOCPATH
- A list of pathnames, separated by colons (':'), that should be used to
find locale data. If this variable is set, only the individual compiled
locale data files from LOCPATH and the system default locale data
path are used; any available locale archives are not used (see
localedef(1)). The individual compiled locale data files are
searched for under subdirectories which depend on the currently used
locale. For example, when en_GB.UTF-8 is used for a category, the
following subdirectories are searched for, in this order:
en_GB.UTF-8, en_GB.utf8, en_GB, en.UTF-8,
en.utf8, and en.
- /usr/lib/locale/locale-archive
- Usual default locale archive location.
- /usr/lib/locale
- Usual default path for compiled individual locale files.
iconv(1), locale(1), localedef(1),
catopen(3), gettext(3), iconv(3), localeconv(3),
mbstowcs(3), newlocale(3), ngettext(3),
nl_langinfo(3), rpmatch(3), setlocale(3),
strcoll(3), strfmon(3), strftime(3), strxfrm(3),
uselocale(3), wcstombs(3), locale(5),
charsets(7), unicode(7), utf-8(7)