Extended Unix Code (EUC) is a multibyte
character encoding
Character encoding is the process of assigning numbers to graphical characters, especially the written characters of human language, allowing them to be stored, transmitted, and transformed using digital computers. The numerical values tha ...
system used primarily for
Japanese,
Korean, and
simplified Chinese.
The most commonly used EUC codes are
variable-length encodings with a character belonging to an compliant coded character set (such as
ASCII
ASCII ( ), abbreviated from American Standard Code for Information Interchange, is a character encoding standard for electronic communication. ASCII codes represent text in computers, telecommunications equipment, and other devices. Because ...
) taking one byte, and a character belonging to a 94x94 coded character set (such as ) represented in two bytes. The
EUC-CN form of and
EUC-KR are examples of such two-byte EUC codes.
EUC-JP includes characters represented by up to three bytes, including an initial , whereas a single character in
EUC-TW can take up to four bytes.
Modern applications are more likely to use
UTF-8
UTF-8 is a variable-length character encoding used for electronic communication. Defined by the Unicode Standard, the name is derived from ''Unicode'' (or ''Universal Coded Character Set'') ''Transformation Format 8-bit''.
UTF-8 is capable of ...
, which supports all of the glyphs of the EUC codes, and more, and is generally more portable with fewer vendor deviations and errors. EUC is however still very popular, especially
EUC-KR for South Korea.
Encoding structure
The structure of EUC is based on the standard, which specifies a system of graphical character sets which can be represented with a sequence of the 94 7-bit bytes
0x21–7E, or alternatively 0xA1–FE if an eighth bit is available. This allows for sets of 94 graphical characters, or 8836 (94
2) characters, or 830584 (94
3) characters. Although initially 0x20 and 0x7F were always the
space
Space is the boundless three-dimensional extent in which objects and events have relative position and direction. In classical physics, physical space is often conceived in three linear dimensions, although modern physicists usually con ...
and and 0xA0 and 0xFF were unused, later editions of allowed the use of the bytes 0xA0 and 0xFF (or 0x20 and 0x7F) within sets under certain circumstances, allowing the inclusion of 96-character sets. The ranges 0x00–1F and 0x80–9F are used for
C0 and C1 control codes
The C0 and C1 control code or control character sets define control codes for use in text by computer systems that use ASCII and derivatives of ASCII. The codes represent additional information about the text, such as the position of a curso ...
.
EUC is a family of 8-bit profiles of , as opposed to 7-bit profiles such as
ISO-2022-JP. As such, only compliant character sets can have EUC forms. Up to four coded character sets (referred to as G0, G1, G2, and G3 or as code sets 0, 1, 2, and 3) can be represented with the EUC scheme. The G0 set is set to an compliant coded character set such as
US-ASCII, () or (the lower half of ) and invoked over GL (i.e. 0x21–0x7E, with the most significant bit cleared).
If US-ASCII is used, this makes the code an
extended ASCII
Extended ASCII is a repertoire of character encodings that include (most of) the original 96 ASCII character set, plus up to 128 additional characters. There is no formal definition of "extended ASCII", and even use of the term is sometimes critic ...
encoding; the most common deviation from US-ASCII is that 0x5C (
backslash in US-ASCII) is often used to represent a
Yen sign in EUC-JP (see below) and a
won sign in EUC-KR.
The other code sets are invoked over GR (i.e. with the most significant bit set). Hence, to get the EUC form of a character, the most significant bit of each coding byte is set (equivalent to adding 128 to each 7-bit coding byte, or adding 160 to each number in the
kuten code); this allows software to easily distinguish whether a particular byte in a
character string belongs to the code or the extended code. Characters in code sets 2 and 3 are prefixed with the control codes (0x8E) and (0x8F) respectively, and invoked over GR. Besides the initial shift code, any byte outside of the range 0xA0–0xFF appearing in a character from code sets 1 through 3 is not a valid EUC code.
The EUC code itself does not make use of the announcement and designation sequences from .
However, the code specification is equivalent to the following sequence of four announcement sequences, with meanings breaking down as follows.
Fixed-length format
The ISO-2022-based
variable-length encoding described above is sometimes referred to as the ''EUC packed format'', which is the encoding format usually labelled as EUC. However, internal processing of EUC data may make use of a fixed-length transformation format called the EUC complete two-byte format. This represents:
* Code set 0 as two bytes in the range 0x21–0x7E (except that the first may be 0x00).
* Code set 1 as two bytes in the range 0xA0–0xFF (except that the first may be 0x80).
* Code set 2 as a byte in the range 0x21–0x7E (or 0x00) followed by a byte in the range 0xA0–0xFF.
* Code set 3 as a byte in the range 0xA0–0xFF (or 0x80) followed by a byte in the range 0x21–0x7E.
Initial bytes of 0x00 and 0x80 are used in cases where the code set uses only one byte. There is also a four-byte fixed-length format.
These fixed-length encoding formats are suited to internal processing and are not usually encountered in interchange.
EUC-JP is registered with the IANA in both formats, the packed format as "EUC-JP" or "csEUCPkdFmtJapanese" and the fixed width format as "csEUCFixWidJapanese".
Only the packed format is included in the
WHATWG
The Web Hypertext Application Technology Working Group (WHATWG) is a community of people interested in evolving HTML and related technologies. The WHATWG was founded by individuals from Apple Inc., the Mozilla Foundation and Opera Software, ...
Encoding Standard used by
HTML5.
EUC-CN
EUC-CN
is the usual encoded form of the standard for
simplified Chinese characters. Unlike the case of Japanese
JIS X 0208 and
ISO-2022-JP, is not normally used in a 7-bit code version, although a variant form called
HZ (which delimits text with ASCII sequences) was sometimes used on
USENET
Usenet () is a worldwide distributed discussion system available on computers. It was developed from the general-purpose Unix-to-Unix Copy (UUCP) dial-up network architecture. Tom Truscott and Jim Ellis conceived the idea in 1979, and it was ...
.
An ASCII character is represented in its usual encoding. A character from is represented by two bytes, both from the range 0xA1–0xFE.
Related Mainland Chinese encoding systems
748 code
An encoding related to EUC-CN is the "748" code used in the WITS typesetting system developed by Beijing's Founder Technology (now obsoleted by its newer FITS typesetting system). The 748 code contains all of , but is not –compliant and therefore not a true EUC code. (It uses an 8-bit lead byte but distinguishes between a second byte with its most significant bit set and one with its most significant bit cleared, and is therefore more similar in structure to
Big5
Big-5 or Big5 is a Chinese character encoding method used in Taiwan, Hong Kong, and Macau for traditional Chinese characters.
The People's Republic of China (PRC), which uses simplified Chinese characters, uses the GB 18030 character s ...
and other non–ISO 2022–compliant
DBCS encoding systems.) The non-GB2312 portion of the 748 code contains traditional and Hong Kong characters and other glyphs used in newspaper typesetting.
IBM code pages 1380, 1381, 1382 and 1383
IBM code page 1381 (
CCSID
A CCSID (coded character set identifier) is a 16-bit number that represents a particular character encoding, encoding of a specific code page. For example, Unicode is a code page that has several encoding (so called "transformation") forms, like UT ...
1381) comprises the single-byte
code page 1115 Code page 1115 ( CCSID 1115), also known as Simplified Chinese PC Data, is a single byte character set (SBCS) used by IBM in its PC DOS operating system in China.
This code page is intended for use with code page 1380 (Simplified Chinese double ...
(CPGID 1115 as CCSID 1115) and the double-byte code page 1380 (CPGID 1380 as CCSID 1380), which encodes GB 2312 the same way as EUC-CN, but deviates from the EUC structure by extending the lead byte range back to 0x8C, adding 31 IBM-selected characters in 0x8CE0 through 0x8CFE and adding 1880
user-defined characters with lead bytes 0x8D through 0xA0.
IBM code page 1383 (CCSID 1383) comprises the single-byte
code page 367 and the double-byte code page 1382 (CPGID 1382 as CCSID 1382), which differs by conforming to the EUC structure, adding the 31 IBM-selected characters in 0xFEE0 through 0xFEFE instead, and including only 1360 user-defined characters, interspersed in the positions not used by GB 2312. The alternative CCSID 5479 is used for the pure EUC-CN code page: it uses CCSID 9574 as its double-byte set, which uses CPGID 1382 but excludes the IBM-selected and user-defined characters.
GBK and GB 18030
GBK is an extension to . It defines an extended form of the EUC-CN encoding capable of representing a larger array of
CJK characters sourced largely from , including
traditional Chinese characters and characters used only in
Japanese. It is not, however, a true EUC code, because ASCII bytes may appear as trail bytes (and
C1 bytes, not limited to the single shifts, may appear as lead or trail bytes), due to a larger encoding space being required.
Variants of GBK are implemented by
Windows code page 936 (the
Microsoft Windows code page for simplified Chinese), and by IBM's code page 1386.
The Unicode-based character encoding defines an extension of GBK capable of encoding the entirety of
Unicode
Unicode, formally The Unicode Standard,The formal version reference is is an information technology standard for the consistent encoding, representation, and handling of text expressed in most of the world's writing systems. The standard, ...
. However, Unicode encoded as is a
variable-length encoding which may use up to four bytes per character, due to an even larger encoding space being required. Being an extension of GBK, it is a superset of EUC-CN but is not itself a true EUC code. Being a Unicode encoding, its repertoire is identical to that of other
Unicode transformation formats such as
UTF-8
UTF-8 is a variable-length character encoding used for electronic communication. Defined by the Unicode Standard, the name is derived from ''Unicode'' (or ''Universal Coded Character Set'') ''Transformation Format 8-bit''.
UTF-8 is capable of ...
.
Mac OS Chinese Simplified
Other EUC-CN variants deviating from the EUC mechanism include the
Mac OS Chinese Simplified script (known as Code page 10008 or
x-mac-chinesesimp
).
It uses the bytes 0x80, 0x81, 0x82, 0xA0, 0xFD, 0xFE and 0xFF for the
U with umlaut (ü), two special font metric characters, the
non-breaking space
In word processing and digital typesetting, a non-breaking space, , also called NBSP, required space, hard space, or fixed space (though it is not of fixed width), is a space character that prevents an automatic line break at its position. In s ...
, the
copyright sign (©), the
trademark sign
The trademark symbol is a symbol to indicate that the preceding mark is a trademark, specifically an unregistered trademark. It complements the registered trademark symbol which is reserved for trademarks registered with an appropriate gove ...
(™) and the ellipsis (…) respectively.
This differs in what is regarded as a single-byte character versus the first byte of a two-byte character from both EUC (where, of those, 0xFD and 0xFE are defined as lead bytes) and GBK (where, of those, 0x81, 0x82, 0xFD and 0xFE are defined as lead bytes).
This use of 0xA0, 0xFD, 0xFE and 0xFF matches
Apple's Shift_JIS variant.
Besides these changes to the lead byte range, the other distinctive feature of the double-byte portion of Mac OS Chinese Simplified is the inclusion of two extensions to the basic GB 2312-80 set in rows 6 and 8.
These are considered "standard extensions to GB 2312", neither of which is proprietary to Apple: the row 8 extension was taken from
GB 6345.1,
both extensions are included by GB/T 12345 (the Traditional Chinese variant of GB 2312),
and both extensions are included by
GB 18030 (the successor to GB 2312).
EUC-JP
EUC-JP is a
variable-length encoding used to represent the elements of three
Japanese character set standards, namely , , and . Other names for this encoding include Unixized JIS (or UJIS) and AT&T JIS.
0.1% of all web pages use EUC-JP since August 2018,
while 2.5% of websites in Japanese use this encoding (less used than , or
UTF-8
UTF-8 is a variable-length character encoding used for electronic communication. Defined by the Unicode Standard, the name is derived from ''Unicode'' (or ''Universal Coded Character Set'') ''Transformation Format 8-bit''.
UTF-8 is capable of ...
). It is called Code page 954 by IBM. Microsoft has two code page numbers for this encoding (51932 and 20932).
This encoding scheme allows the easy mixing of 7-bit ASCII and 8-bit Japanese without the need for the escape characters employed by
ISO-2022-JP, which is based on the same character set standards, and without ASCII bytes appearing as trail bytes (unlike
Shift JIS).
A related and partially compatible encoding, called EUC-JISx0213 or EUC-JIS-2004, encodes and
(similarly to , its Shift_JIS-based counterpart).
Compared to EUC-CN or EUC-KR, EUC-JP did not become as widely adopted on PC and Macintosh systems in Japan, which used or its extensions (
Windows code page 932 on
Microsoft Windows, and
MacJapanese on
classic Mac OS), although it became heavily used by
Unix
Unix (; trademarked as UNIX) is a family of multitasking, multiuser computer operating systems that derive from the original AT&T Unix, whose development started in 1969 at the Bell Labs research center by Ken Thompson, Dennis Ritchie, a ...
or Unix-like
operating system
An operating system (OS) is system software that manages computer hardware, software resources, and provides common daemon (computing), services for computer programs.
Time-sharing operating systems scheduler (computing), schedule tasks for ef ...
s (except for
HP-UX
HP-UX (from "Hewlett Packard Unix") is Hewlett Packard Enterprise's proprietary implementation of the Unix operating system, based on Unix System V (initially System III) and first released in 1984. Current versions support HPE Integrit ...
). Therefore, whether Japanese web sites use EUC-JP or Shift_JIS often depends on what OS the author uses.
Characters are encoded as follows:
* As an EUC/
ISO 2022 compliant encoding, the
C0 control characters, space and DEL are represented as in ASCII.
* A graphical character from
ASCII
ASCII ( ), abbreviated from American Standard Code for Information Interchange, is a character encoding standard for electronic communication. ASCII codes represent text in computers, telecommunications equipment, and other devices. Because ...
(code set 0) is represented as its usual one-byte representation, in the range 0x21 – 0x7E. While some variants of EUC-JP encode the
lower half of here, most encode ASCII,
including the W3C/WHATWG Encoding standard used by
HTML5, and so does EUC-JIS-2004.
While this means that 0x5C is typically mapped to Unicode as U+005C REVERSE SOLIDUS (the ASCII
backslash), U+005C may be displayed as a
Yen sign by certain Japanese-locale fonts, e.g. on Microsoft Windows, for compatibility with the lower half of .
* A character from JIS X 0208 (code set 1) is represented by two bytes, both in the range 0xA1 – 0xFE. This differs from the ISO-2022-JP representation by having the high bit set. This code set may also contain vendor extensions in some EUC-JP variants. In EUC-JIS-2004, the first plane of is encoded here, which is effectively a superset of standard .
* A character from the ''upper half'' of (
half-width kana, code set 2) is represented by two bytes, the first being 0x8E, the second being the usual representation in the range 0xA1 – 0xDF. This set may contain
IBM vendor extensions in some variants.
* A character from JIS X 0212 (code set 3) is represented in EUC-JP by three bytes, the first being 0x8F, the following two being in the range 0xA1–0xFE, i.e. with the high bit set. In addition to standard , code set 3 of some EUC-JP variants may also contain extensions in rows 83 and 84 to represent characters from IBM's Shift JIS extensions which lack standard JIS X 0212 mappings, which may be coded in either of two layouts, one defined by IBM themselves and one defined by the
OSF.
In EUC-JIS-2004, the second plane of is encoded here,
which does not collide with the allocated rows in standard .
Some implementations of EUC-JIS-2004, such as the one used by
Python, allow both and plane 2 characters in this set.
Related Japanese encoding methods
Vendor extensions to EUC-JP (from, for example, the
Open Software Foundation,
IBM or
NEC) were often allocated within the individual code sets,
as opposed to using invalid EUC sequences (as in popular extensions of EUC-CN and EUC-KR).
However, some vendor-specific encodings are partially compatible with EUC-JP, due to encoding over GR, but do not follow the packed EUC structure. Often, these do not include use of the single shifts from EUC-JP, and are thus not straight extensions of EUC-JP, with the exception of Super DEC Kanji.
DEC Kanji
Digital Equipment Corporation
Digital Equipment Corporation (DEC ), using the trademark Digital, was a major American company in the computer industry from the 1960s to the 1990s. The company was co-founded by Ken Olsen and Harlan Anderson in 1957. Olsen was president unti ...
defines two variants of EUC-JP only partly conforming to the EUC packed format, but also bearing some resemblance to the complete two-byte format. The overall format of the "DEC Kanji" encoding mostly corresponds to fixed-length (complete two-byte) EUC; however, code set 0 is not required to be left-padded with null bytes (similarly to the packed format).
JIS X 0208 is, as usual, used for code set 1; code set 2 (half-width katakana) is absent; code set 3 is encoded like the two-byte fixed width format (i.e. without a shift byte and with only the first high bit set), but used for two-byte user defined characters rather than being specified for JIS X 0212.
In the basic "DEC Kanji" encoding, only the first 31 rows of code set 3 are used for user-defined characters: rows 32 through 94 are reserved, similarly to the unused rows in code set 1.
The "Super DEC Kanji" encoding accepts codes both from the "DEC Kanji" encoding and from packed-format EUC, for a total of five code-sets.
It also allows the entire user defined code set, and the unused rows at the ends of the JIS X 0208 and JIS X 0212 code sets (rows 85–94 and 78–94 respectively), to be used for user-defined characters.
HP-16
Hewlett-Packard defines an encoding referred to as "HP-16". This accompanies their "HP-15" encoding, which is a variant of
Shift JIS. HP-16 encodes using the same bytes as in EUC-JP, but does not use the single shift codes (thus omitting code sets 2 and 3), and adds three user-defined regions which do not follow the packed-format EUC structure:
* Lead bytes 0xA1–C2, trail bytes 0x21–7E
* Lead bytes 0xC3–E3, trail bytes 0x21–3F
* Lead bytes 0xC3–E1, trail bytes 0x40–64
IKIS
The IKIS (Interactive Kanji Information System) encoding used by
Data General resembles EUC-JP without single shifts, i.e. with only code sets 0 and 1. Half-width katakana are instead included in row 8 of JIS X 0208 (colliding with the box-drawing characters added to the standard in 1983). JIS X 0208 rows 9 through 12 are used for user-defined characters.
Adaptations of EUC-JP for EBCDIC
KEIS (Kanji-processing Extended Information System) is an
EBCDIC encoding used by
Hitachi,
with double-byte characters (a DBCS-Host encoding) included using shifting sequences, making it a
stateful
In information technology and computer science, a system is described as stateful if it is designed to remember preceding events or user interactions; the remembered information is called the state of the system.
The set of states a system can oc ...
encoding. Specifically, the sequence switches to single-byte mode and the sequence switches to double-byte mode. However, JIS X 0208 characters are encoded using the same byte sequences used to encode them in EUC-JP. This results in duplicate encodings for the —0x4040 per the DBCS-Host code structure, and 0xA1A1 as in EUC-JP. This differs from IBM's DBCS-Host encoding for Japanese, the layout of which builds on versions which predate JIS X 0208 altogether. The lead byte range is extended back to 0x59, out of which the lead bytes 0x81–A0 are designated for user-defined characters,
and the remainder are used for corporate-defined characters, including both kanji and non-kanji.
JEF (Japanese-processing Extended Feature)
is an EBCDIC encoding used on
Fujitsu FACOM mainframes, contrasting with FMR (a variant of Shift JIS) used on Fujitsu PCs. Like KEIS, JEF is a stateful encoding, switching to a double-byte DBCS-Host mode using shifting sequences (where switches to single-byte mode and switches to double-byte mode).
Also similarly to KEIS, JIS X 0208 codes are represented the same as in EUC-JP.
The lead byte range is extended back to 0x41, with 0x80–A0 designated for user definition; lead bytes 0x41–7F are assigned row numbers 101 through 163 for
kuten purposes, although row 162 (lead byte 0x7E) is unused.
Rows 101 through 148 are used for extended kanji, while rows 149 through 163 are used for extended non-kanji.
EUC-KR
EUC-KR is a
variable-length encoding to represent Korean text using two coded character sets, (formerly KS C 5601)
and either (, formerly ) or
US-ASCII, depending on variant. (formerly ) stipulates the encoding and dubbed it as EUC-KR.
A character drawn from KS X 1001 (G1, code set 1) is encoded as two bytes in GR (0xA1–0xFE) and a character from or US-ASCII (G0, code set 0) takes one byte in GL (0x21–0x7E).
It is usually referred to as Wansung ( ko, 완성, Wanseong, lit=precomposed) in the
Republic of Korea. IBM refers to the double-byte component as Code page 971, and to EUC-KR with ASCII as Code page 970. It is implemented as Code page 20949 ("Korean Wansung")
and Code page 51949 ("EUC Korean") by Microsoft.
, less than 0.07% of all web pages globally use EUC-KR,
but 4.5% of South Korean web pages use EUC-KR. Including extensions, it is the most widely used legacy character encoding in Korea on all three major platforms (
macOS
macOS (; previously OS X and originally Mac OS X) is a Unix operating system developed and marketed by Apple Inc. since 2001. It is the primary operating system for Apple's Mac (computer), Mac computers. Within the market of ...
, other Unix-like OSes, and Windows), but its use has been very slowly shifting to
UTF-8
UTF-8 is a variable-length character encoding used for electronic communication. Defined by the Unicode Standard, the name is derived from ''Unicode'' (or ''Universal Coded Character Set'') ''Transformation Format 8-bit''.
UTF-8 is capable of ...
as it gains popularity, especially on Linux and macOS.
As with most other encodings,
UTF-8
UTF-8 is a variable-length character encoding used for electronic communication. Defined by the Unicode Standard, the name is derived from ''Unicode'' (or ''Universal Coded Character Set'') ''Transformation Format 8-bit''.
UTF-8 is capable of ...
is now preferred for new use, solving problems with consistency between platforms and vendors.
Related Korean encoding systems
Unified Hangul Code
A common extension of EUC-KR is the
Unified Hangul Code
Unified Hangul Code (UHC), or Extended Wansung, also known under Microsoft Windows as Code Page 949 (Windows-949, MS949 or ambiguously CP949), is the Microsoft Windows code page for the Korean language. It is an extension of Wansung Code ( KS ...
( ko, 통합형 한글 코드, Tonghabhyeong Hangeul Kodeu, label=none, or ko, 통합 완성형, Tonghab Wansunghyung, label=none), which is the default Korean codepage on Microsoft Windows. It is given the code page number 949 by Microsoft, and 1261 or 1363 by IBM.
IBM's code page 949 is a different, unrelated, EUC-KR extension.
Unified Hangul Code extends EUC-KR by using codes which do not conform to the EUC structure to incorporate additional syllable blocks, completing the coverage of the composed syllable blocks available in
Johab and Unicode. The
W3C/
WHATWG
The Web Hypertext Application Technology Working Group (WHATWG) is a community of people interested in evolving HTML and related technologies. The WHATWG was founded by individuals from Apple Inc., the Mozilla Foundation and Opera Software, ...
Encoding Standard used by
HTML5 incorporates the Unified Hangul Code extensions into its definition of EUC-KR.
Mac OS Korean (HangulTalk)
Other encodings incorporating EUC-KR as a subset include the Mac OS Korean script (known as Code page 10003 or
x-mac-korean
),
which was used by HangulTalk (MacOS-KH), the Korean localisation of the
classic Mac OS. It was developed by Elex Computer ( ko, 일렉스, label=none), who were at the time the authorised distributor of Apple Macintosh computers in South Korea.
HangulTalk adds extension characters with lead bytes between 0xA1 and 0xAD, both in unused space within the EUC-KR GR plane (trail bytes 0xA1–0xFE), and using non-EUC codes outside of it (trail bytes 0x41–0xA0). Some of these characters are font-style-independent stylised
dingbats.
Many of these characters do not have exact Unicode mappings, and Apple software maps these cases variously to
combining sequences, to approximate mappings with an appended
private-use character as a modifier for round-trip purposes, or to private-use characters.
Apple also uses certain single-byte codes outside of the EUC-KR plane for additional characters: 0x80 for a
required space
In word processing and digital typesetting, a non-breaking space, , also called NBSP, required space, hard space, or fixed space (though it is not of Monospaced font, fixed width), is a whitespace character, space character that prevents an Line ...
, 0x81 for a
won sign (₩), 0x82 for an
en dash (–), 0x83 for a
copyright sign (©), 0x84 for a wide
underscore (_) and 0xFF for an
ellipsis (…).
Although none of these additional single-byte codes are within the lead byte range of plain EUC-KR (unlike Apple's extensions to EUC-CN,
see above), some are within the lead byte range of Unified Hangul Code (specifically, 0x81, 0x82, 0x83 and 0x84).
EUC-KP
Similarly to KS X 1001, the North Korean
KPS 9566 standard is typically used in EUC form; in these contexts, it is sometimes referred to as EUC-KP. More recent editions of the standard extend the EUC representation with characters using non-EUC two-byte codes, in a similar manner to Unified Hangul Code.
EUC-TH
Although certain single-byte encodings such as the
ISO/IEC 8859 series technically conform to the EUC structure, they are rarely labelled as EUC. However, is used on
Solaris as a label for
TIS-620.
EUC-TW
EUC-TW is a
variable-length encoding that supports US-ASCII and 16 planes of , each of which is 94x94. It is a rarely used encoding for
traditional Chinese characters
Traditional Chinese characters are one type of standard Chinese characters, Chinese character sets of the contemporary written Chinese. The traditional characters had taken shapes since the libian, clerical change and mostly remained in the ...
as used in
Taiwan
Taiwan, officially the Republic of China (ROC), is a country in East Asia, at the junction of the East and South China Seas in the northwestern Pacific Ocean, with the People's Republic of China (PRC) to the northwest, Japan to the northe ...
. Variants of
Big5
Big-5 or Big5 is a Chinese character encoding method used in Taiwan, Hong Kong, and Macau for traditional Chinese characters.
The People's Republic of China (PRC), which uses simplified Chinese characters, uses the GB 18030 character s ...
are much more common than EUC-TW, although Big5 only encodes the first two planes of CNS 11643
hanzi
Chinese characters () are logograms developed for the writing of Chinese. In addition, they have been adapted to write other East Asian languages, and remain a key component of the Japanese writing system where they are known as ''kanji ...
, while
UTF-8
UTF-8 is a variable-length character encoding used for electronic communication. Defined by the Unicode Standard, the name is derived from ''Unicode'' (or ''Universal Coded Character Set'') ''Transformation Format 8-bit''.
UTF-8 is capable of ...
is becoming more common.
* As an EUC/
ISO 2022 encoding, the
C0 control characters, ASCII space and DEL are encoded as in ASCII.
* A graphical character from US-ASCII (G0, code set 0) is encoded in GL as its usual single byte representation (0x21–0x7E).
* A character from CNS 11643 plane 1 (code set 1) is encoded as two bytes in GR (0xA1–0xFE).
* A character in plane 1 through 16 of CNS 11643 (code set 2) is encoded as four bytes:
** The first byte is always 0x8E (Single Shift 2).
** The second byte (0xA1–0xB0) indicates the plane, the number of which is obtained by subtracting 0xA0 from that byte.
** The third and fourth bytes are in GR (0xA1–0xFE).
Note that the plane 1 of CNS 11643 is encoded twice as code set 1 and a part of code set 2.
See also
*
CJK
*
Japanese language and computers
*
Korean language and computers
*
Chinese character encoding
In computing, Chinese character encodings can be used to represent text written in the CJK languages—Chinese, Japanese, Korean—and (rarely) obsolete Vietnamese, all of which use Chinese characters. Several general-purpose character enc ...
Notes
References
External links
EUC-JP codeset table(minus the ASCII and halfwidth parts)
Code Page Identifiersmentions the 748 code
Description of the EUC-TW code(in Chinese)
Manual page of EUC-JISX0213in the Perl Encode module
International Register of Coded Character Sets to be Used With Escape Sequencesection 2.4 (p.14f.) with the coded character sets of China, Japan, South Korea, North Korea and Taiwan (ISO/IEC)
Chinese, Japanese, and Korean character set standards and encoding systems
{{Character encoding
Character sets
Chinese-language computing
Encodings of Asian languages
Encodings of Japanese
Korean-language computing