Content-type: text/html Man page of Unicode

Unicode

Section: File Formats (5)
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NAME

Unicode, unicode, universal.utf8, UCS-2, UCS-4, UTF-8, iso10646 - Support for the Unicode and ISO/IEC 10646 standards  

DESCRIPTION

The operating system provides locales and codeset converters that support the following standards: The Unicode Standard, Version 2.1, Unicode, Inc., 1998

See the Unicode Technical Report #8, http://www.unicode.org/unicode/reports/tr8.html, for detailed information about changes to this version of the standard. Information Technology-Universal Multiple-Octet Coded Character Set, ISO/IEC 10646:1993
The Basic Multilingual Plane defined by this standard is identical with the main body of Unicode character encoding.

These standards define generalized character encoding rules that can be applied to characters in most native language scripts. The Unicode Standard specifies a universal character set (UCS) that contains definitions in Version 2.1 for 38,887 characters and also includes a Private Use Area for vendor- or user-defined characters. The following list summarizes the main features of this character set: All characters are treated as 16-bit units. Each 16-bit unit has an abstract character identity. Certain sequences of 16-bit characters in a text stream are transformed into other characters, called composed characters. Characters have properties, such as base, numeric, spacing, combination, and directionality. The Unicode standard provides rules for ordering characters with different properties so that parsing of character sequences is unambiguous. The relationship between Unicode characters and the glyphs in the native language script that users see, type, or print is not necessarily one-to-one. A glyph may be mapped to a single abstract character or a composed character. Conversely, more than one glyph can be mapped to a character. The ISO 8859-1 character set occupies the first 256 code positions (and the ASCII character set the first 128 positions) of the UCS.

The ISO/IEC 10646 standard specifies both 16- and 32-bit units for each abstract character defined in the the UCS. The 16-bit character values in Unicode are zero-extended through a second 16-bit unit in the larger encoding format. The second, or low-surrogate, 16-bit unit is reserved for future use in both standards.

The Unicode and ISO/IEC 10646 standards specify a uniform character size and allow character units to be processed for all languages by using the same set of rules. Therefore, system support for the universal character set does not need to include multiple algorithms (one or more per language) for converting between file code and internal process code. However, the two different character sizes (16-bit or 32-bit) that the standards support require different parsing schemes for data input and output. Universal character encoding that an implementation parses in 16-bit units (2 octets) is known as UCS-2. This is the canonical Unicode encoding in wide use on PC systems. Universal character encoding that an implementation parses in 32-bit units (4 octets) is known as UCS-4. This is the canonical ISO/IEC 10646 encoding that is in use on systems that can support the larger data unit size.

The standards define four transformation formats for the universal character set. For the most part, the following UCS transformation formats (UTFs) exist to transform UCS values into sequences of bytes for handling by various byte-oriented protocols: UTF-8, the standard method for transforming UCS-4 encoding into a sequence of 8-bit bytes and ensuring interchange transparency for characters in C0 code positions (0 to 31), the SPACE (32) character, and the DEL (127) character UTF-7, the standard interchange format for environments that strip the eighth bit from each byte UTF-1, which is similar to UTF-8 but also ensures interchange transparency of characters in C1 code positions (128 to 159) UTF-16, which handles the surrogate character extensions defined by Version 2.0 of the Unicode Standard. These extensions allow representation in 2-byte encoding units of characters whose values in UCS-4 are outside the range normally allowed by a 16-bit length restriction. When data includes these characters, the UTF-16 transformation format enables data exchange between applications using UCS-4 and applications that require the data to be in UCS-2 (2-byte) format. Although UTF-16 does not support representation of the entire UCS-4 code space, it supports all characters (except those in certain private-use ranges) that have been currently defined for the languages covered by both standards.

Tru64 UNIX provides locales and codeset converters that provide support for UCS-4 and UTF-8. The operating system supports UCS-2 only through codeset converters, which transform data to UTF-16 format. The operating system provides no support for the UTF-1 and UTF-7 transformation formats
 

Codeset Conversion

Codeset converters are available to convert data in all the major encoding formats that the operating system supports to and from UCS-2, UCS-4, and UTF-8. If the worldwide support subsets are installed on your system, you can enter the following commands to find the names of these converters: % cd /usr/lib/nls/loc/iconv % ls | grep UTF % ls | grep UCS

Among the converters listed, you will find some that handle conversion of data in the code-page format used on PC systems. See the code_page(5) reference page for more information about converting between codeset and code-page formats. All codeset converters can be used with the iconv command and associated library functions.

Note

There was a change in mapping of Korean Hangul characters between Version 1.1 and Version 2.0 of the Unicode Standard. By default, UCS-2, UCS-4, and UTF-8 conversion assumes Version 2.0 character mapping for Hangul characters. Therefore, if data is in Version 1.1 format, the data must first be converted to Version 2.0 format before converting from UCS-2, UCS-4, or UTF-8 to an entirely different format. The format of a codeset converter name is from-codeset_to-codeset. In converter names, the Version 1.1 codeset formats for UCS-2, UCS-4, and UTF-8 are represented by UNICODE-1-1, UNICODE-1-1-UCS-4, and UNICODE-1-1-UTF-8, respectively. The Version 2.0 codeset names are represented by UCS-2, UCS-4, and UTF-8. For example, if Korean data is currently in UCS-4 Version 1.1 format, the data must first be processed by the UNICODE-1-1-UCS-4_UCS-4 converter before being processed by the UCS-4_deckorean converter.

See the iconv_intro(5) reference page for general information on codeset conversion.
 

Locales

The following locales use UCS-4 as internal processing code: universal.UTF-8

This locale converts data in UTF-8 file format to UCS-4 process code. The locale can be used to test any UCS-4 character to determine if it is included in one of the following classes defined for the LC_CTYPE category: alnum, alpha, blank, cntrl, digit, graph, lower, print, punct, space, upper, or xdigit.
In the universal.utf8@ucs4 locale, the LC_MESSAGES, LC_MONETARY, LC_NUMERIC, and LC_TIME category definitions match those for the POSIX (C) locale. native_locale_name@ucs4
These locales (for example, fr_FR.ISO8859-1@ucs4) perform the same function as the universal.UTF-8 locale but are different in the following ways: The file code is specified by the codeset portion (for example, ISO8859-1) of native_locale_name. Classification information is not provided for the full set of UCS-4 characters, but only for those in a particular native language (for example, French). Country-specific data is also available to the application. The LC_COLLATE, LC_MESSAGES, LC_MONETARY, LC_NUMERIC, and LC_TIME category definitions match those defined in native_locale_name. language_territory.UTF-8
These locales (for example, fr_FR.UTF-8) are similar to the @ucs4 locales in limiting classification information to the characters in a particular native language and making country-specific data available to the application. However, the .UTF-8 locales assume file data follows UTF-8 encoding rules and are the only locales that support the Euro monetary character (C=).

Note

CDE desktop users can select .UTF-8 locales by choosing names followed by (Unicode) from the CDE language menu at session startup. In this case, the locale setting applies by default to all applications run during the CDE session. However, users still using the DECwindows environment can select .UTF-8 locales only by setting a locale environment variable (LANG or LC_ALL) from a terminal emulation window. When a locale is set in a terminal emulation window, the locale setting applies only to child applications invoked from the parent window after the locale setting was made.


 

Unicode Character Database

For the convenience of programmers, the source file for the Unicode character database (Version 2.1.5) is available online. This source file is the one used to build the .UTF-8 locales provided in optional software subsets included with the operating system product. If the .UTF-8 locales are installed on your system, both the Unicode character database and an associated ReadMe file are also installed in the /usr/share/unidata directory. The ReadMe file discusses the character properties supported by Unicode.
 

Font Support

The operating system provides the following types of bitmap fonts for UCS characters: Public domain Unicode fonts:

-etl-fixed-medium-r-normal--14-140-72-72-c-70-iso10646-1 -etl-fixed-medium-r-normal--16-160-72-72-c-80-iso10646-1 -etl-fixed-medium-r-normal--24-240-72-72-c-120-iso10646-1 Composite fonts that the libfr_FGC font renderer creates by combining fonts available for other codesets

These fonts currently cover only a subset of the characters in UCS. Each of the ETL public domain fonts supports about 1000 characters, but does not include any characters for Chinese, Japanese, or Korean. The composite fonts created by the font renderer are generated only from fonts available for the ISO 8859-1 (Latin-1) and ISO 8859-15 (Latin-9) codesets.

Refer to iso8859-1(5) and iso8859-15(5) for the names of fonts available for Latin-1 and Latin-9 characters. Note that the Latin-9 fonts, which include glyphs for the Euro character, provide the best support for the language_territory.UTF-8 locales, which also support this character.

For information on printer support and converting bitmap font encoding to PostScript, see i18n_printing(5) and wwpsof(8).
 

SEE ALSO

Commands: locale(1), wwpsof(8),

Others: ascii(5), code_page(5), iso8859-1(5), i18n_intro(5), i18n_printing(5), iconv_intro(5), l10n_intro(5)


 

Index

NAME
DESCRIPTION
Codeset Conversion
Locales
Unicode Character Database
Font Support
SEE ALSO

This document was created by man2html, using the manual pages.
Time: 02:43:06 GMT, October 02, 2010