Conforming implementations shall support one or more coded character sets. Each supported locale shall include the portable character set, which is the set of symbolic names for characters in Portable Character Set . This is used to describe characters within the text of IEEE Std 1003.1-2001. The first eight entries in Portable Character Set are defined in the ISO/IEC 6429:1992 standard and the rest of the characters are defined in the ISO/IEC 10646-1:2000 standard.
Symbolic Name |
Glyph |
UCS |
Description |
---|---|---|---|
<NUL> |
|
<U0000> |
NULL (NUL) |
<alert> |
|
<U0007> |
BELL (BEL) |
<backspace> |
|
<U0008> |
BACKSPACE (BS) |
<tab> |
|
<U0009> |
CHARACTER TABULATION (HT) |
<carriage-return> |
|
<U000D> |
CARRIAGE RETURN (CR) |
<newline> |
|
<U000A> |
LINE FEED (LF) |
<vertical-tab> |
|
<U000B> |
LINE TABULATION (VT) |
<form-feed> |
|
<U000C> |
FORM FEED (FF) |
<space> |
|
<U0020> |
SPACE |
<exclamation-mark> |
! |
<U0021> |
EXCLAMATION MARK |
<quotation-mark> |
" |
<U0022> |
QUOTATION MARK |
<number-sign> |
# |
<U0023> |
NUMBER SIGN |
<dollar-sign> |
$ |
<U0024> |
DOLLAR SIGN |
<percent-sign> |
% |
<U0025> |
PERCENT SIGN |
<ampersand> |
& |
<U0026> |
AMPERSAND |
<apostrophe> |
' |
<U0027> |
APOSTROPHE |
<left-parenthesis> |
( |
<U0028> |
LEFT PARENTHESIS |
<right-parenthesis> |
) |
<U0029> |
RIGHT PARENTHESIS |
<asterisk> |
* |
<U002A> |
ASTERISK |
<plus-sign> |
+ |
<U002B> |
PLUS SIGN |
<comma> |
, |
<U002C> |
COMMA |
<hyphen-minus> |
- |
<U002D> |
HYPHEN-MINUS |
<hyphen> |
- |
<U002D> |
HYPHEN-MINUS |
<full-stop> |
. |
<U002E> |
FULL STOP |
<period> |
. |
<U002E> |
FULL STOP |
<slash> |
/ |
<U002F> |
SOLIDUS |
<solidus> |
/ |
<U002F> |
SOLIDUS |
<zero> |
0 |
<U0030> |
DIGIT ZERO |
<one> |
1 |
<U0031> |
DIGIT ONE |
<two> |
2 |
<U0032> |
DIGIT TWO |
<three> |
3 |
<U0033> |
DIGIT THREE |
<four> |
4 |
<U0034> |
DIGIT FOUR |
<five> |
5 |
<U0035> |
DIGIT FIVE |
<six> |
6 |
<U0036> |
DIGIT SIX |
<seven> |
7 |
<U0037> |
DIGIT SEVEN |
<eight> |
8 |
<U0038> |
DIGIT EIGHT |
<nine> |
9 |
<U0039> |
DIGIT NINE |
<colon> |
: |
<U003A> |
COLON |
<semicolon> |
; |
<U003B> |
SEMICOLON |
<less-than-sign> |
< |
<U003C> |
LESS-THAN SIGN |
<equals-sign> |
= |
<U003D> |
EQUALS SIGN |
<greater-than-sign> |
> |
<U003E> |
GREATER-THAN SIGN |
<question-mark> |
? |
<U003F> |
QUESTION MARK |
<commercial-at> |
|
|
<U0040> |
<A> |
A |
<U0041> |
LATIN CAPITAL LETTER A |
<B> |
B |
<U0042> |
LATIN CAPITAL LETTER B |
<C> |
C |
<U0043> |
LATIN CAPITAL LETTER C |
<D> |
D |
<U0044> |
LATIN CAPITAL LETTER D |
<E> |
E |
<U0045> |
LATIN CAPITAL LETTER E |
<F> |
F |
<U0046> |
LATIN CAPITAL LETTER F |
<G> |
G |
<U0047> |
LATIN CAPITAL LETTER G |
<H> |
H |
<U0048> |
LATIN CAPITAL LETTER H |
<I> |
I |
<U0049> |
LATIN CAPITAL LETTER I |
<J> |
J |
<U004A> |
LATIN CAPITAL LETTER J |
<K> |
K |
<U004B> |
LATIN CAPITAL LETTER K |
<L> |
L |
<U004C> |
LATIN CAPITAL LETTER L |
<M> |
M |
<U004D> |
LATIN CAPITAL LETTER M |
<N> |
N |
<U004E> |
LATIN CAPITAL LETTER N |
<O> |
O |
<U004F> |
LATIN CAPITAL LETTER O |
<P> |
P |
<U0050> |
LATIN CAPITAL LETTER P |
<Q> |
Q |
<U0051> |
LATIN CAPITAL LETTER Q |
<R> |
R |
<U0052> |
LATIN CAPITAL LETTER R |
<S> |
S |
<U0053> |
LATIN CAPITAL LETTER S |
<T> |
T |
<U0054> |
LATIN CAPITAL LETTER T |
<U> |
U |
<U0055> |
LATIN CAPITAL LETTER U |
<V> |
V |
<U0056> |
LATIN CAPITAL LETTER V |
<W> |
W |
<U0057> |
LATIN CAPITAL LETTER W |
<X> |
X |
<U0058> |
LATIN CAPITAL LETTER X |
<Y> |
Y |
<U0059> |
LATIN CAPITAL LETTER Y |
<Z> |
Z |
<U005A> |
LATIN CAPITAL LETTER Z |
<left-square-bracket> |
[ |
<U005B> |
LEFT SQUARE BRACKET |
<backslash> |
\ |
<U005C> |
REVERSE SOLIDUS |
<reverse-solidus> |
\ |
<U005C> |
REVERSE SOLIDUS |
<right-square-bracket> |
] |
<U005D> |
RIGHT SQUARE BRACKET |
<circumflex-accent> |
^ |
<U005E> |
CIRCUMFLEX ACCENT |
<circumflex> |
^ |
<U005E> |
CIRCUMFLEX ACCENT |
<low-line> |
_ |
<U005F> |
LOW LINE |
<underscore> |
_ |
<U005F> |
LOW LINE |
<grave-accent> |
` |
<U0060> |
GRAVE ACCENT |
<a> |
a |
<U0061> |
LATIN SMALL LETTER A |
<b> |
b |
<U0062> |
LATIN SMALL LETTER B |
<c> |
c |
<U0063> |
LATIN SMALL LETTER C |
<d> |
d |
<U0064> |
LATIN SMALL LETTER D |
<e> |
e |
<U0065> |
LATIN SMALL LETTER E |
<f> |
f |
<U0066> |
LATIN SMALL LETTER F |
<g> |
g |
<U0067> |
LATIN SMALL LETTER G |
<h> |
h |
<U0068> |
LATIN SMALL LETTER H |
<i> |
i |
<U0069> |
LATIN SMALL LETTER I |
<j> |
j |
<U006A> |
LATIN SMALL LETTER J |
<k> |
k |
<U006B> |
LATIN SMALL LETTER K |
<l> |
l |
<U006C> |
LATIN SMALL LETTER L |
<m> |
m |
<U006D> |
LATIN SMALL LETTER M |
<n> |
n |
<U006E> |
LATIN SMALL LETTER N |
<o> |
o |
<U006F> |
LATIN SMALL LETTER O |
<p> |
p |
<U0070> |
LATIN SMALL LETTER P |
<q> |
q |
<U0071> |
LATIN SMALL LETTER Q |
<r> |
r |
<U0072> |
LATIN SMALL LETTER R |
<s> |
s |
<U0073> |
LATIN SMALL LETTER S |
<t> |
t |
<U0074> |
LATIN SMALL LETTER T |
<u> |
u |
<U0075> |
LATIN SMALL LETTER U |
<v> |
v |
<U0076> |
LATIN SMALL LETTER V |
<w> |
w |
<U0077> |
LATIN SMALL LETTER W |
<x> |
x |
<U0078> |
LATIN SMALL LETTER X |
<y> |
y |
<U0079> |
LATIN SMALL LETTER Y |
<z> |
z |
<U007A> |
LATIN SMALL LETTER Z |
<left-brace> |
{ |
<U007B> |
LEFT CURLY BRACKET |
<left-curly-bracket> |
{ |
<U007B> |
LEFT CURLY BRACKET |
<vertical-line> |
| |
<U007C> |
VERTICAL LINE |
<right-brace> |
} |
<U007D> |
RIGHT CURLY BRACKET |
<right-curly-bracket> |
} |
<U007D> |
RIGHT CURLY BRACKET |
<tilde> |
|
<U007E> |
TILDE |
IEEE Std 1003.1-2001 uses character names other than the above, but only in an informative way; for example, in examples to illustrate the use of characters beyond the portable character set with the facilities of IEEE Std 1003.1-2001.
Portable Character Set defines the characters in the portable character set and the corresponding symbolic character names used to identify each character in a character set description file. The table contains more than one symbolic character name for characters whose traditional name differs from the chosen name. Characters defined in Control Character Set may also be used in character set description files.
IEEE Std 1003.1-2001 places only the following requirements on the encoded values of the characters in the portable character set:
If the encoded values associated with each member of the portable character set are not invariant across all locales supported by the implementation, if an application accesses any pair of locales where the character encodings differ, or accesses data from an application running in a locale which has different encodings from the application's current locale, the results are unspecified.
The encoded values associated with the digits 0 to 9 shall be such that the value of each character after 0 shall be one greater than the value of the previous character.
A null character, NUL, which has all bits set to zero, shall be in the set of characters.
The encoded values associated with the members of the portable character set are each represented in a single byte. Moreover, if the value is stored in an object of C-language type char, it is guaranteed to be positive (except the NUL, which is always zero).
Conforming implementations shall support certain character and character set attributes, as defined in POSIX Locale .
The POSIX locale contains the characters in Portable Character Set , which have the properties listed in LC_CTYPE . In other locales, the presence, meaning, and representation of any additional characters are locale-specific.
In locales other than the POSIX locale, a character may have a state-dependent encoding. There are two types of these encodings:
A single-shift encoding (where each character not in the initial shift state is preceded by a shift code) can be defined if each shift-code and character sequence is considered a multi-byte character. This is done using the concatenated-constant format in a character set description file, as described in Character Set Description File . If the implementation supports a character encoding of this type, all of the standard utilities in the Shell and Utilities volume of IEEE Std 1003.1-2001 shall support it. Use of a single-shift encoding with any of the functions in the System Interfaces volume of IEEE Std 1003.1-2001 that do not specifically mention the effects of state-dependent encoding is implementation-defined.
A locking-shift encoding (where the state of the character is determined by a shift code that may affect more than the single character following it) cannot be defined with the current character set description file format. Use of a locking-shift encoding with any of the standard utilities in the Shell and Utilities volume of IEEE Std 1003.1-2001 or with any of the functions in the System Interfaces volume of IEEE Std 1003.1-2001 that do not specifically mention the effects of state-dependent encoding is implementation-defined.
While in the initial shift state, all characters in the portable character set shall retain their usual interpretation and shall not alter the shift state. The interpretation for subsequent bytes in the sequence shall be a function of the current shift state. A byte with all bits zero shall be interpreted as the null character independent of shift state. Thus a byte with all bits zero shall never occur in the second or subsequent bytes of a character.
The maximum allowable number of bytes in a character in the current locale shall be indicated by {MB_CUR_MAX}, defined in the <stdlib.h> header and by the <mb_cur_max> value in a character set description file; see Character Set Description File . The implementation's maximum number of bytes in a character shall be defined by the C-language macro {MB_LEN_MAX}.
In the shell, the standard utilities are written so that the encodings of characters are described by the locale's LC_CTYPE definition (see LC_CTYPE ) and there is no differentiation between characters consisting of single octets (8-bit bytes) or multiple bytes. However, in the C language, a differentiation is made. To ease the handling of variable length characters, the C language has introduced the concept of wide-character codes.
All wide-character codes in a given process consist of an equal number of bits. This is in contrast to characters, which can consist of a variable number of bytes. The byte or byte sequence that represents a character can also be represented as a wide-character code. Wide-character codes thus provide a uniform size for manipulating text data. A wide-character code having all bits zero is the null wide-character code (see Null Wide-Character Code ), and terminates wide-character strings (see Wide-Character Code (C Language) ). The wide-character value for each member of the portable character set shall equal its value when used as the lone character in an integer character constant. Wide-character codes for other characters are locale and implementation-defined. State shift bytes shall not have a wide-character code representation.
Implementations shall provide a character set description file for at least one coded character set supported by the implementation. These files are referred to elsewhere in IEEE Std 1003.1-2001 as charmap files. It is implementation-defined whether or not users or applications can provide additional character set description files.
IEEE Std 1003.1-2001 does not require that multiple character sets or codesets be supported. Although multiple charmap files are supported, it is the responsibility of the implementation to provide the file or files; if only one is provided, only that one is accessible using the localedef utility's -f option.
Each character set description file, except those that use the ISO/IEC 10646-1:2000 standard position values as the encoding values, shall define characteristics for the coded character set and the encoding for the characters specified in Portable Character Set , and may define encoding for additional characters supported by the implementation. Other information about the coded character set may also be in the file. Coded character set character values shall be defined using symbolic character names followed by character encoding values.
Each symbolic name specified in Portable Character Set shall be included in the file and shall be
mapped to a unique coding value, except as noted below. The glyphs '{' , '}' , '_' , '-' ,
'/' , '\' , '.' , and '^' have more than one symbolic name; all symbolic names for each such
glyph shall be included, each with identical encoding. If some or all of the control characters identified in Control Character Set are supported by the implementation, the symbolic names and their corresponding encoding
values shall be included in the file. Some of the encodings associated with the symbolic names in Control
Character Set may be the same as characters found in Portable Character Set ; both names shall be
provided for each encoding.
<ACK> |
<DC2> |
<ENQ> |
<FS> |
<IS4> |
<SOH> |
<BEL> |
<DC3> |
<EOT> |
<GS> |
<LF> |
<STX> |
<BS> |
<DC4> |
<ESC> |
<HT> |
<NAK> |
<SUB> |
<CAN> |
<DEL> |
<ETB> |
<IS1> |
<RS> |
<SYN> |
<CR> |
<DLE> |
<ETX> |
<IS2> |
<SI> |
<US> |
<DC1> |
<EM> |
<FF> |
<IS3> |
<SO> |
<VT> |
The following declarations can precede the character definitions. Each shall consist of the symbol shown in the following list, starting in column 1, including the surrounding brackets, followed by one or more <blank>s, followed by the value to be assigned to the symbol.
The character set mapping definitions shall be all the lines immediately following an identifier line containing the string "CHARMAP" starting in column 1, and preceding a trailer line containing the string "END CHARMAP" starting in column 1. Empty lines and lines containing a <comment_char> in the first column shall be ignored. Each non-comment line of the character set mapping definition (that is, between the "CHARMAP" and "END CHARMAP" lines of the file) shall be in either of two forms:
"%s %s %s\n", <symbolic-name>, <encoding>, <comments>
or:
"%s...%s %s %s\n", <symbolic-name>, <symbolic-name>, <encoding>, <comments>
In the first format, the line in the character set mapping definition shall define a single symbolic name and a corresponding encoding. A symbolic name is one or more characters from the set shown with visible glyphs in Portable Character Set , enclosed between angle brackets. A character following an escape character is interpreted as itself; for example, the sequence "<\\\>>" represents the symbolic name "\>" enclosed between angle brackets.
In the second format, the line in the character set mapping definition shall define a range of one or more symbolic names. In this form, the symbolic names shall consist of zero or more non-numeric characters from the set shown with visible glyphs in Portable Character Set , followed by an integer formed by one or more decimal digits. Both integers shall contain the same number of digits. The characters preceding the integer shall be identical in the two symbolic names, and the integer formed by the digits in the second symbolic name shall be equal to or greater than the integer formed by the digits in the first name. This shall be interpreted as a series of symbolic names formed from the common part and each of the integers between the first and the second integer, inclusive. As an example, <j0101>...<j0104> is interpreted as the symbolic names <j0101>, <j0102>, <j0103>, and <j0104>, in that order.
A character set mapping definition line shall exist for all symbolic names specified in Portable Character Set , and shall define the coded character value that corresponds to the character indicated in the table, or the coded character value that corresponds to the control character symbolic name. If the control characters commonly associated with the symbolic names in Control Character Set are supported by the implementation, the symbolic name and the corresponding encoding value shall be included in the file. Additional unique symbolic names may be included. A coded character value can be represented by more than one symbolic name.
The encoding part is expressed as one (for single-byte character values) or more concatenated decimal, octal, or hexadecimal constants in the following formats:
"%cd%u", <escape_char>, <decimal byte value> "%cx%x", <escape_char>, <hexadecimal byte value> "%c%o", <escape_char>, <octal byte value>
Decimal constants shall be represented by two or three decimal digits, preceded by the escape character and the lowercase letter 'd' ; for example, "\d05" , "\d97" , or "\d143" . Hexadecimal constants shall be represented by two hexadecimal digits, preceded by the escape character and the lowercase letter 'x' ; for example, "\x05" , "\x61" , or "\x8f" . Octal constants shall be represented by two or three octal digits, preceded by the escape character; for example, "\05" , "\141" , or "\217" . In a portable charmap file, each constant represents an 8-bit byte. When constants are concatenated for multi-byte character values, they shall be of the same type, and interpreted in byte order from first to last with the least significant byte of the multi-byte character specified by the last constant. The manner in which these constants are represented in the character stored in the system is implementation-defined. (This notation was chosen for reasons of portability. There is no requirement that the internal representation in the computer memory be in this same order.) Omitting bytes from a multi-byte character definition produces undefined results.
In lines defining ranges of symbolic names, the encoded value shall be the value for the first symbolic name in the range (the symbolic name preceding the ellipsis). Subsequent symbolic names defined by the range shall have encoding values in increasing order. Bytes shall be treated as unsigned octets, and carry shall be propagated between the bytes as necessary to represent the range. For example, the line:
<j0101>...<j0104> \d129\d254
is interpreted as:
<j0101> \d129\d254 <j0102> \d129\d255 <j0103> \d130\d0 <j0104> \d130\d1
The comment is optional.
The following declarations can follow the character set mapping definitions (after the "END CHARMAP" statement). Each shall consist of the keyword shown in the following list, starting in column 1, followed by the value(s) to be associated to the keyword, as defined below.
After the "END CHARMAP" statement, a syntax for a width definition would be:
WIDTH <A> 1 <B> 1 <C>...<Z> 1 ... <foo1>...<foon> 2 ... END WIDTH
In this example, the numerical code point values represented by the symbols <A> and <B> are assigned a width of 1. The code point values <C> to <Z> inclusive ( <C>, <D>, <E>, and so on) are also assigned a width of 1. Using <A>... <Z> would have required fewer lines, but the alternative was shown to demonstrate flexibility. The keyword WIDTH_DEFAULT could have been added as appropriate.
This section addresses the use of state-dependent character encodings (that is, those in which the encoding of a character is dependent on one or more shift codes that may precede it).
A single-shift encoding (where each character not in the initial shift state is preceded by a shift code) can be defined in the charmap format if each shift-code/character sequence is considered a multi-byte character, defined using the concatenated-constant format described in Character Set Description File . If the implementation supports a character encoding of this type, all of the standard utilities shall support it. A locking-shift encoding (where the state of the character is determined by a shift code that may affect more than the single character following it) could be defined with an extension to the charmap format described in Character Set Description File . If the implementation supports a character encoding of this type, any of the standard utilities that describe character (versus byte) or text-file manipulation shall have the following characteristics:
The utility shall process the statefully encoded data as a concatenation of state-independent characters. The presence of redundant locking shifts shall not affect the comparison of two statefully encoded strings.
A utility that divides, truncates, or extracts substrings from statefully encoded data shall produce output that contains locking shifts at the beginning or end of the resulting data, if appropriate, to retain correct state information.