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Whitespace character

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A whitespace character is a character data element that represents white space when text is rendered for display by a computer.

For example, a space character (U+0020   SPACE, ASCII 32) represents blank space such as a word divider in a Western script.

A printable character results in output when rendered, but a whitespace character does not. Instead, whitespace characters define the layout of text to a limited degree – interrupting the normal sequence of rendering characters next to each other. The output of subsequent characters is typically shifted to the right (or to the left for right-to-left script) or to the start of the next line. The effect of multiple sequential whitespace characters is cumulative such that the next printable character is rendered in a location based on the accumulated effect of preceding whitespace characters.

The term whitespace is rooting in the common practice of rendering text on white paper. Normally, a whitespace character is not rendered as white. It affects rendering, but it is not itself rendered.

Overview

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Width of various Unicode space characters

A space character typically inserts horizontal space that is about as wide as a letter. For a monospaced font the width is the width of a letter, and for a variable-width font the width is font-specific. Some fonts support multiple space characters that have different widths.

A tab character typically inserts horizontal space that is based on tab stops which vary by application.

A newline character sequence typically moves the render output location to the beginning of the next line. If one follows text, it does not actually result in whitespace. But, two sequential newline sequences between text blocks results in a blank line between the blocks. The height of the blank line varies by application.

Using whitespace characters to layout text is a convention. Applications sometimes render whitespace characters as visible markup so that a user can see what is normally not visible.

Typically, a user types a space character by pressing spacebar, a tab character by pressing Tab ↹ and newline by pressing ↵ Enter.

Unicode

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The table below lists the twenty-five characters defined as whitespace ("WSpace=Y", "WS") characters in the Unicode Character Database.[1] Seventeen use a definition of whitespace consistent with the algorithm for bidirectional writing ("Bidirectional Character Type=WS") and are known as "Bidi-WS" characters. The remaining characters may also be used, but are not of this "Bidi" type.

Note: Depending on the browser and fonts used to view the following table, not all spaces may be displayed properly.

Name Code point Width box May break? In
IDN?
Script Block General
category
Notes
character tabulation U+0009 9 Yes No Common Basic Latin Other,
control
HT, Horizontal Tab. HTML/XML named entity: 	, LaTeX: \tab, C escape: \t
line feed U+000A 10 Is a line-break Common Basic Latin Other,
control
LF, Line feed. HTML/XML named entity: 
, C escape: \n
line tabulation U+000B 11 Is a line-break Common Basic Latin Other,
control
VT, Vertical Tab. C escape: \v
form feed U+000C 12 Is a line-break Common Basic Latin Other,
control
FF, Form feed. C escape: \f
carriage return U+000D 13 Is a line-break Common Basic Latin Other,
control
CR, Carriage return. C escape: \r
space U+0020 32 Yes No Common Basic Latin Separator,
space
Most common (normal ASCII space). LaTeX:
next line U+0085 133 Is a line-break Common Latin-1
Supplement
Other,
control
NEL, Next line. LaTeX: \\
no-break space U+00A0 160   No No Common Latin-1
Supplement
Separator,
space
Non-breaking space: identical to U+0020, but not a point at which a line may be broken.
HTML/XML named entity:  ,  , LaTeX: ~
ogham space mark U+1680 5760 Yes No Ogham Ogham Separator,
space
Used for interword separation in Ogham text. Normally a vertical line in vertical text or a horizontal line in horizontal text, but may also be a blank space in "stemless" fonts. Requires an Ogham font.
en quad U+2000 8192   Yes No Common General
Punctuation
Separator,
space
Width of one en. U+2002 is canonically equivalent to this character; U+2002 is preferred.
em quad U+2001 8193 Yes No Common General
Punctuation
Separator,
space
Also known as "mutton quad". Width of one em. U+2003 is canonically equivalent to this character; U+2003 is preferred.
en space U+2002 8194 Yes No Common General
Punctuation
Separator,
space
Also known as "nut". Width of one en. U+2000 En Quad is canonically equivalent to this character; U+2002 is preferred.
HTML/XML named entity:  , LaTeX: \enspace (the LaTeX en space is a no-break space)
em space U+2003 8195 Yes No Common General
Punctuation
Separator,
space
Also known as "mutton". Width of one em. U+2001 Em Quad is canonically equivalent to this character; U+2003 is preferred.
HTML/XML named entity:  , LaTeX: \quad
three-per-em space U+2004 8196 Yes No Common General
Punctuation
Separator,
space
Also known as "thick space". One third of an em wide.
HTML/XML named entity:  , LaTeX: \; (the LaTeX thick space is a no-break space)
four-per-em space U+2005 8197 Yes No Common General
Punctuation
Separator,
space
Also known as "mid space". One fourth of an em wide.
HTML/XML named entity:  
six-per-em space U+2006 8198 Yes No Common General
Punctuation
Separator,
space
One sixth of an em wide. In computer typography, sometimes equated to U+2009.
figure space U+2007 8199 No No Common General
Punctuation
Separator,
space
Figure space. In fonts with monospaced digits, equal to the width of one digit.
HTML/XML named entity:  
punctuation space U+2008 8200 Yes No Common General
Punctuation
Separator,
space
As wide as the narrow punctuation in a font, i.e. the advance width of the period or comma.[2]
HTML/XML named entity:  
thin space U+2009 8201 Yes No Common General
Punctuation
Separator,
space
Thin space; one-fifth (sometimes one-sixth) of an em wide. Recommended for use as a thousands separator for measures made with SI units. Unlike U+2002 to U+2008, its width may get adjusted in typesetting.[3]
HTML/XML named entity:  ,  , LaTeX: \, (the LaTeX thin space is a no-break space)
hair space U+200A 8202 Yes No Common General
Punctuation
Separator,
space
Thinner than a thin space. HTML/XML named entity:  ,  
line separator U+2028 8232 Is a line-break Common General
Punctuation
Separator,
line
paragraph separator U+2029 8233 Is a line-break Common General
Punctuation
Separator,
paragraph
narrow no-break space U+202F 8239 No No Common General
Punctuation
Separator,
space
Narrow no-break space. Similar in function to U+00A0 No-Break Space. When used with Mongolian, its width is usually one third of the normal space; in other context, its width sometimes resembles that of the Thin Space (U+2009). LaTeX: \,
medium mathematical space U+205F 8287 Yes No Common General
Punctuation
Separator,
space
MMSP. Used in mathematical formulae. Four-eighteenths of an em.[4] In mathematical typography, the widths of spaces are usually given in integral multiples of an eighteenth of an em, and 4/18 em may be used in several situations, for example between the a and the + and between the + and the b in the expression a + b.[5]
HTML/XML named entity:  , LaTeX: \: (the LaTeX medium space is a no-break space)
ideographic space U+3000 12288   Yes No Common CJK Symbols
and
Punctuation
Separator,
space
As wide as a CJK character cell (fullwidth). Used, for example, in tai tou.
 Name  Code point Width box May break? In
IDN?
Script Block General
category
Notes
mongolian vowel separator U+180E 6158 Yes No Mongolian Mongolian Other,
Format
MVS. A narrow space character, used in Mongolian to cause the final two characters of a word to take on different shapes.[6] It is no longer classified as space character (i.e. in Zs category) in Unicode 6.3.0, even though it was in previous versions of the standard.
zero width space U+200B 8203 Yes No ? General
Punctuation
Other,
Format
ZWSP, zero-width space. Used to indicate word boundaries to text processing systems when using scripts that do not use explicit spacing. It is similar to the soft hyphen, with the difference that the latter is used to indicate syllable boundaries, and should display a visible hyphen when the line breaks at it.
HTML/XML named entity: ​[7][c]
zero width non-joiner U+200C 8204 Yes Context-dependent[12] ? General
Punctuation
Other,
Format
ZWNJ, zero-width non-joiner. When placed between two characters that would otherwise be connected, a ZWNJ causes them to be printed in their final and initial forms, respectively.
HTML/XML named entity: ‌
zero width joiner U+200D 8205 Yes Context-dependent[13] ? General
Punctuation
Other,
Format
ZWJ, zero-width joiner. When placed between two characters that would otherwise not be connected, a ZWJ causes them to be printed in their connected forms. Can also be used to display joining forms in isolation. Depending on whether a ligature or conjunct is expected by default, can either induce (as in emoji and in Sinhala) or suppress (as in Devanagari) substitution with a single glyph, whilst still permitting use of individual joining forms (unlike ZWNJ).
HTML/XML named entity: ‍
word joiner U+2060 8288 No No ? General
Punctuation
Other,
Format
WJ, word joiner. Similar to U+200B, but not a point at which a line may be broken.
HTML/XML named entity: ⁠
zero width non-breaking space U+FEFF 65279  No No ? Arabic
Presentation
Forms-B
Other,
Format
Zero-width non-breaking space. Used primarily as a Byte Order Mark. Use as an indication of non-breaking is deprecated as of Unicode 3.2; see U+2060 instead.
  1. ^ White_Space is a binary Unicode property.[14]
  2. ^ "PropList-16.0.0.txt". Unicode. 2024-05-31. Retrieved 2024-09-13.
  3. ^ Although ​ is one HTML5 named entity for U+200B, the additional names NegativeMediumSpace, NegativeThickSpace, NegativeThinSpace and NegativeVeryThinSpace (which are names used in the Wolfram Language for negative-advance spaces, which it maps to the Private Use Area)[8][9][10][11] are also defined by HTML5 as aliases for U+200B (e.g. ​).[7]

Substitute images

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Unicode also provides some visible characters that can be used to represent various whitespace characters, in contexts where a visible symbol must be displayed:

Unicode space-illustrating characters (visible)
Code Decimal Name Block Display Description
U+00B7 183 Middle dot Latin-1 Supplement · Interpunct
Named entity: ·
U+21A1 8609 Downwards two headed arrow Arrows ECMA-17 / ISO 2047 symbol for form feed (page break)[15]
U+2261 8810 Identical to Mathematical
Operators
Amongst other uses, is the ECMA-17 / ISO 2047 symbol for line feed[15]
U+237D 9085 Shouldered open box Miscellaneous Technical Used to indicate a NBSP
U+23CE 9166 Return symbol Miscellaneous Technical Symbol for a return key, which enters a line break
U+2409 9225 Symbol for horizontal tabulation Control Pictures Substitutes for a tab character
U+240A 9226 Symbol for line feed Control Pictures Substitutes for a line feed
U+240B 9227 Symbol for vertical tabulation Control Pictures Substitutes for a vertical tab (line tab)
U+240C 9228 Symbol for form feed Control Pictures Substitutes for a form feed (page break)
U+240D 9229 Symbol for carriage return Control Pictures Substitutes for a carriage return
U+2420 9248 Symbol for space Control Pictures Substitutes for an ASCII space
U+2422 9250 Blank symbol Control Pictures aka "substitute blank",[16] used in BCDIC,[16] EBCDIC,[16] ASCII-1963[16][17] etc. as a symbol for the word separator
U+2423 9251 Open box Control Pictures Used in block letter handwriting at least since the 1980s when it is necessary to explicitly indicate the number of space characters (e.g. when programming with pen and paper). Used in a textbook (published 1982, 1984, 1985, 1988 by Springer-Verlag) on Modula-2,[18] a programming language where space codes require explicit indication. Also used in the keypad[n 1] of the Texas Instruments' TI-8x series of graphing calculators.
Named entity: ␣
U+2424 9252 Symbol for newline Control Pictures Substitutes for a line break
U+25B3 9651 White up-pointing triangle Geometric Shapes Amongst other uses, is the ECMA-17 / ISO 2047 symbol for the ASCII space[15]
U+2A5B 10843 Logical Or with middle stem Supplemental
Mathematical
Operators
Amongst other uses, is the ECMA-17 / ISO 2047 symbol for vertical tab (line tab)[15]
U+2AAA 10922 Smaller than Supplemental
Mathematical
Operators
Amongst other uses, is the ECMA-17 / ISO 2047 symbol for carriage return[15]
U+2AAB 10923 Larger than Supplemental
Mathematical
Operators
Amongst other uses, is the ECMA-17 / ISO 2047 symbol for the tab character[15]
U+3037 12343 Ideographic Telegraph Line Feed
Separator Symbol
CJK Symbols
and Punctuation
Graphic used for code 9999 in Chinese telegraph code, representing a line feed
  1. ^ Above the zero "0" or negative "(‒)" key.
Exact space
  • The Cambridge Z88 provided a special "exact space" (code point 160 aka 0xA0) (invokable by key shortcut +SPACE[19]), displayed as "…" by the operating system's display driver.[20][21] It was therefore also known as "dot space" in conjunction with BBC BASIC.[20][21]
  • Under code point 224 (0xE0) the computer also provided a special three-character-cells-wide SPACE symbol "SPC" (analogous to Unicode's single-cell-wide U+2420).[20][21]

Non-space blanks

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  • The Braille Patterns Unicode block contains U+2800 BRAILLE PATTERN BLANK, a Braille pattern with no dots raised. Some fonts display the character as a fixed-width blank, however the Unicode standard explicitly states that it does not act as a space.[22]
  • Unicode's coverage of the Korean alphabet includes several code points which represent the absence of a written letter, and thus do not display a glyph:
    • Unicode includes a Hangul Filler character in the Hangul Compatibility Jamo block (U+3164 HANGUL FILLER). This is classified as a letter, but displayed as an empty space, like a Hangul block containing no jamo. It is used in KS X 1001 Hangul combining sequences to introduce them or denote the absence of a letter in a position, but not in Unicode's combining jamo system.[23]
    • Unicode's combining jamo system uses similar Hangul Choseong Filler and Hangul Jungseong Filler characters to denote the absence of a letter in initial or medial position within a syllable block, which are included in the Hangul Jamo block (U+115F HANGUL CHOSEONG FILLER, U+1160 HANGUL JUNGSEONG FILLER).[24]
    • Additionally, a Halfwidth Hangul Filler is included in the Halfwidth and Fullwidth Forms (U+FFA0 HALFWIDTH HANGUL FILLER), which is used when mapping from encodings which include characters from both Johab (or Wansung) and N-byte Hangul (or its EBCDIC counterpart), such as IBM-933, which includes both Johab and EBCDIC fillers.[25][26]

Whitespace and digital typography

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The Chicago Manual of Style has rules for using the different sized whitespaces.

On-screen display

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Text editors, word processors, and desktop publishing software differ in how they represent whitespace on the screen, and how they represent spaces at the ends of lines longer than the screen or column width. In some cases, spaces are shown simply as blank space; in other cases they may be represented by an interpunct or other symbols. Many different characters (described below) could be used to produce spaces, and non-character functions (such as margins and tab settings) can also affect whitespace.

Many of the Unicode space characters were created for compatibility with classic print typography.[27]

Even if digital typography has algorithmic kerning and justification, those space characters can be used to supplement the electronic formatting when needed.

Variable-width general-purpose space

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In computer character encodings, there is a normal general-purpose space (Unicode character U+0020) whose width will vary according to the design of the typeface. Typical values range from 1/5 em to 1/3 em (in digital typography an em is equal to the nominal size of the font, so for a 10-point font the space will probably be between 2 and 3.3 points). Sophisticated fonts may have differently sized spaces for bold, italic, and small-caps faces, and often compositors will manually adjust the width of the space depending on the size and prominence of the text.

In addition to this general-purpose space, it is possible to encode a space of a specific width. See the table below for a complete list.

Hair spaces around dashes

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Em dashes used as parenthetical dividers, and en dashes when used as word joiners, are usually set continuous with the text.[28] However, such a dash can optionally be surrounded with a hair space, U+200A, or thin space, U+2009. The hair space can be written in HTML by using the numeric character references   or  , or the named entity  , although that is not universally supported in browsers as of 2016.[needs update] The thin space is named entity   and numeric references   or  . These spaces are much thinner than a normal space (except in a monospaced (non-proportional) font), with the hair space in particular being the thinnest of horizontal whitespace characters.

Normal space versus hair and thin spaces (as rendered by your browser)
Normal space with em dash left — right
Thin space with em dash leftright
Hair space with em dash left — right
No space with em dash left—right

Computing applications

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Programming languages

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In most programming language syntax, whitespace characters can be used to separate tokens. For a free-form language, whitespace characters are ignored by code processors (i.e. compiler). Even when language syntax requires white space, often multiple whitespace characters are treated the same as a single. In an off-side rule language, indentation white space is syntactically significant. In the satirical and contrarian language called Whitespace, whitespace characters are the only significant characters and normal text is ignored.

Good use of white space in source code can group related logic and make the code easier to understand. Excessive use of whitespace, including at the end of a line where it provides no rendering behavior, is considered a nuisance.

Most languages only recognize whitespace characters that have an ASCII code. They disallow most or all of the Unicode codes listed above. The C language defines whitespace characters to be "space, horizontal tab, new-line, vertical tab, and form-feed".[29] The HTTP network protocol requires different types of whitespace to be used in different parts of the protocol, such as: only the space character in the status line, CRLF at the end of a line, and "linear whitespace" in header values.[30]

Command-line parsing

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Typical command-line parsers use the space character to delimit arguments. A value with an embedded space character is problematic since it causes the value to parse as multiple arguments. Typically, a parser allows for escaping the normal argument parsing by enclosing the text in quotes.

Consider that one wants to list the files in directory named "foo bar". This command instead lists the files matching either "foo" or "bar":

ls foo bar

This command correctly specifies a single argument:

ls "foo bar"

Markup languages

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Some markup languages, such as SGML, preserve whitespace as written.

Web markup languages such as XML and HTML treat whitespace characters specially, including space characters, for programmers' convenience. One or more space characters read by conforming display-time processors of those markup languages are collapsed to 0 or 1 space, depending on their semantic context. For example, double (or more) spaces within text are collapsed to a single space, and spaces which appear on either side of the "=" that separates an attribute name from its value have no effect on the interpretation of the document. Element end tags can contain trailing spaces, and empty-element tags in XML can contain spaces before the "/>". In these languages, unnecessary whitespace increases the file size, and so may slow network transfers. On the other hand, unnecessary whitespace can also inconspicuously mark code, similar to, but less obvious than comments in code. This can be desirable to prove an infringement of license or copyright that was committed by copying and pasting.

In XML attribute values, sequences of whitespace characters are treated as a single space when the document is read by a parser.[31] Whitespace in XML element content is not changed in this way by the parser, but an application receiving information from the parser may choose to apply similar rules to element content. An XML document author can use the xml:space="preserve" attribute on an element to instruct the parser to discourage the downstream application from altering whitespace in that element's content.

In most HTML elements, a sequence of whitespace characters is treated as a single inter-word separator, which may manifest as a single space character when rendering text in a language that normally inserts such space between words.[32] Conforming HTML renderers are required to apply a more literal treatment of whitespace within a few prescribed elements, such as the pre tag and any element for which CSS has been used to apply pre-like whitespace processing. In such elements, space characters will not be "collapsed" into inter-word separators.

In both XML and HTML, the non-breaking space character, along with other non-"standard" spaces, is not treated as collapsible "whitespace", so it is not subject to the rules above.

File names

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Such usage is similar to multiword file names written for operating systems and applications that are confused by embedded space codes—such file names instead use an underscore (_) as a word separator, as_in_this_phrase.

Another such symbol was U+2422 BLANK SYMBOL. This was used in the early years of computer programming when writing on coding forms. Keypunch operators immediately recognized the symbol as an "explicit space".[16] It was used in BCDIC,[16] EBCDIC,[16] and ASCII-1963.[16]

See also

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References

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  1. ^ "The Unicode Standard". Unicode Consortium.
  2. ^ "Character design standards – space characters". Character design standards. Microsoft. 1998–1999. Archived from the original on March 14, 2010. Retrieved 2009-05-18.
  3. ^ The Unicode Standard 5.0, printed edition, p. 205; also available at "Chapter 6 — Writing Systems and Punctuation" (PDF). The Unicode Standard 5.0, electronic edition. Unicode Consortium. 2006-07-14. p. 11 (205). Retrieved 2022-12-22.
  4. ^ "General Punctuation" (PDF). The Unicode Standard 5.1. Unicode Inc. 1991–2008. Retrieved 2009-05-13.
  5. ^ Sargent, Murray III (2006-08-29). "Unicode Nearly Plain Text Encoding of Mathematics (Version 2)". Unicode Technical Note #28. Unicode Inc. pp. 19–20. Retrieved 2009-05-19.
  6. ^ Gillam, Richard (2002). Unicode Demystified: A Practical Programmer's Guide to the Encoding Standard. Addison-Wesley. ISBN 0-201-70052-2.
  7. ^ a b Hickson, Ian. "12.5 Named character references". HTML Standard. WHATWG.
  8. ^ Wolfram. "\[NegativeThickSpace]". Wolfram Language Documentation.
  9. ^ Wolfram. "\[NegativeMediumSpace]". Wolfram Language Documentation.
  10. ^ Wolfram. "\[NegativeThinSpace]". Wolfram Language Documentation.
  11. ^ Wolfram. "\[NegativeVeryThinSpace]". Wolfram Language Documentation.
  12. ^ Faltstrom, P., ed. (August 2010). "Zero Width Non-Joiner". The Unicode Code Points and Internationalized Domain Names for Applications (IDNA). IETF. sec. A.1. doi:10.17487/RFC5892. RFC 5892. Retrieved September 4, 2019.
  13. ^ Faltstrom, P., ed. (August 2010). "Zero Width Joiner". The Unicode Code Points and Internationalized Domain Names for Applications (IDNA). IETF. sec. A.2. doi:10.17487/RFC5892. RFC 5892. Retrieved September 4, 2019.
  14. ^ "Unicode Standard Annex #44, Unicode Character Database".
  15. ^ a b c d e f European Computer Manufacturers Association (1968-11-28). Graphic Representation of the Control Characters of the ECMA 7-Bit Coded Character Set for Information Interchange (PDF). ECMA-17.
  16. ^ a b c d e f g h Mackenzie, Charles E. (1980). Coded Character Sets, History and Development (PDF). The Systems Programming Series (1 ed.). Addison-Wesley Publishing Company, Inc. pp. 41, 47, 52, 102–103, 117, 119, 130, 132, 141, 148, 150–151, 212, 424. ISBN 978-0-201-14460-4. LCCN 77-90165. Archived (PDF) from the original on May 26, 2016. Retrieved August 25, 2019.
  17. ^ "American Standard Code for Information Interchange, ASA X3.4-1963". American Standards Association (ASA). 1963-06-17.
  18. ^ Wirth, Niklaus (1988). Programming in Modula-2 (PDF). doi:10.1007/978-3-642-83565-0. ISBN 978-3-642-83567-4.
  19. ^ "Cambridge Z88 User Guide". 4.7 (4th ed.). Cambridge Computer Limited. 2016 [1987]. Basic concepts - The keyboard. Archived from the original on 2016-12-12. Retrieved 2016-12-12.
  20. ^ a b c "Cambridge Z88 User Guide". 4.0 (4th ed.). Cambridge Computer Limited. 1987. Appendix D. Archived from the original on 2016-12-12. Retrieved 2016-12-12.
  21. ^ a b c "Cambridge Z88 User Guide". 4.7 (4th ed.). Cambridge Computer Limited. 2015 [1987]. Appendix D. Archived from the original on 2016-12-12. Retrieved 2016-12-12.
  22. ^ Unicode chart U+2800, braille patterns
  23. ^ Chung, Jaemin (2017-03-30). Proposal to add an informative note to U+3164 HANGUL FILLER (PDF). Unicode Consortium. UTC L2/17-081.
  24. ^ Hangul Jamo (PDF). Unicode Consortium. 2020-10-25.
  25. ^ "ibm-933_P110-1995". ICU Demonstration - Converter Explorer. International Components for Unicode.
  26. ^ "ibm-933_P110-1995 (lead bytes 0E84)". ICU Demonstration - Converter Explorer. International Components for Unicode.
  27. ^ "Chapter 6 — Writing Systems and Punctuation" (PDF). The Unicode Standard 15.0, electronic edition. Unicode Consortium. 2022-09-13. pp. 12–13 (267–268). Retrieved 2022-12-23. The fixed-width space characters (U+2000..U+200A) are derived from conventional (hot lead) typography. Algorithmic kerning and justification in computerized typography do not use these characters. However, where they are used (for example, in typesetting mathematical formulae), their width is generally font-specified, and they typically do not expand during justification. The exception is U+2009 thin space, which sometimes gets adjusted.
  28. ^ Usage of the different dash types is illustrated, e.g., in The Chicago Manual of Style, §§ 6.80, 6.83–6.86
  29. ^ http://www.open-std.org/jtc1/sc22/wg14/www/docs/n1548.pdf Section 6.4, paragraph 3
  30. ^ Fielding, R.; et al. (June 1999), "2.2 Basic Rules", Hypertext Transfer Protocol—HTTP/1.1, doi:10.17487/RFC2616, RFC 2616
  31. ^ "3.3.3 Attribute-Value Normalization". Extensible Markup Language (XML) 1.0 (Fifth Edition). World Wide Web Consortium.
  32. ^ "9.1 Whitespace". W3CHTML 4.01 Specification. World Wide Web Consortium.
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