Search for character classes but not replace them
-
@Alan-Kilborn, @PeterJones Thanks a lot, that worked! Thanks also for pointing towards the relevant passages of the user manual :)
-
@Alan-Kilborn said in Search for character classes but not replace them:
Also, not sure why you show only single [ and ] in your posting – that isn’t going to work for what you’re trying to do.
@Benjamin-Sasse , in case you check back… This is a subtle issue, that depending on your “test data” might not have come up.
[:alpha:]is a normal character class which will match any one of the literal characters:,a,l,p, orh. If your test expression wasa2a, you would have thought it was working.
[[:alpha:]]is a named character class, which will match any alphabetic characters:
The usermanual tries to emphasize the need for both brackets for the named character class, but there’s a lot to read, so you might not have noticed that.
-
Hello @benjamin-sasse, @peterjones, @alan-kilborn, and All
I think that true
Posixcharacter classes are, indeed, defined as[:xxxxxx:]However, the important point is that a
Posixcharacter class is active ONLY IF it is contained in a standard character class !
So, for instance, the character class
(?-i)[AB[:digit:]x-z]would match, either :-
The uppercase letter
AorB -
Any single digit from
0to9 -
The lowercase letter
x,yorz
As you can see, the outer character class contains two distinct values
AandB, aPosixcharacter class[:digit:]and, finally, a range of charactersx-z
Thus, the negative class character
(?-i)[^AB[:digit:]x-z]would match any character different from[AB0123456789xyz]If a
Posixcharacter class is used alone, within a standard character class, two syntaxes are possible for the negative form :[^[:.....:]]or[[:^.....:]]For instance, all these regexes are equivalent :
[^[:word:]]=[[:^word:]]=[^[:w:]]=[[:^w:]]=\W=[^_\d\l\u]
Our
Boostregex engine handles the15character classesPosix, below, when embedded in a standard positive or negative character class :[:space:] [:digit:] [:lower:] [:upper:] [:word:] [:blank:] [:v:] [:alnum:] [:alpha:] [:cntrl:] [:graph:] [:print:] [:punct:] [:xdigit:] [:unicode:]Best Regards,
guy038
-
-
@guy038 just for understanding : the posix character class
[:unicode:]can only contain characters of the basic posix character set “portable character set” (256 characters) ? maybe outdated , but regex buddy only lists 12 posix character classeshttps://www.regular-expressions.info/posixbrackets.html#class .uhmm , when i follow the npp-manual , guiding me to the boost - perl-regex 1.7.0 there are again other character classes , default always supported and ones that are unicode extended . https://www.boost.org/doc/libs/1_70_0/libs/regex/doc/html/boost_regex/syntax/perl_syntax.html https://www.boost.org/doc/libs/1_70_0/libs/regex/doc/html/boost_regex/syntax/character_classes/std_char_classes.html https://www.boost.org/doc/libs/1_70_0/libs/regex/doc/html/boost_regex/syntax/character_classes/optional_char_class_names.html .
but still my question is : can only the posix portable character set match the search posix character classes ? i wouldnt have cared about , but the “posix” definition now confuses me .
-
Hello, @carypt and all,
- Firstly, Notepad++ uses the standard
Boostregex library, which is not compiled with fullUnicodesupport. Thus, all the regexes syntaxes of the page, below, in order to get all characters of a particularUnicode General Categorycategory, cannot be used and just output anInvalid regular expressionmessage ! Of course, we lose a functionality but, in return, we gain in speed of execution, as the regex engine does not have to distinguish the numerousUnicodecharacters and properties !
- Secondly, from the three links, below :
https://www.regular-expressions.info/posixbrackets.html#clas
https://en.wikipedia.org/wiki/Regular_expression#Character_classes
We deduce that our
Boostregex engine :-
Does not handle the
[[:ascii:]]Posix character class, which is not standard and which can easily be replaced with the[\x00-\x7F]regex -
Can handle the
[[:v:]]Posix character class, equivalent to\v, which is not a standardPosixclass and matches a vertical blank character, so the regex[\n\x0B\f\r\x85\x{2028}\x{2029}] -
Can handle the
[[:unicode:]]Posix character class. Apparently, after a lot ofGooglesearches, it does not seem to be aPosixstandard class ( An addition to theBoostregex library ? ). It matches any Unicode character which code-point over\x{00xFF}Note, however, that the present N++ implementation misses all Unicode chars with code over\x{FFFF}, so all the characters over theBMP:-((
Its name seems also misnommed as, anyway, all characters are
Unicodecharacters ! Actually, it should be the class of all characters which do not belong to theC0 Control and Basic Latin (ASCII)andC1 Control and Latin-1 SupplementUnicode scripts and should be found wih the regex[^\x00-\xFF]Unfortunately, given the above restriction, the right regex, in order to match any character with code-point over
\x{00FF}, is, rather :(?![\x00-\xFF]).[\x{D800}-\x{DFFF}]?Best Regards,
guy038
- Firstly, Notepad++ uses the standard
-
@guy038 ty , for your detailed and elaborate answer . oh my , that question has caused much research i presume . excuse me . its a mess that all is dependent on widespread definitions .
so now i know npp has a faster speed for dropping higher unicode characters , ok , the main used chinese etc characters seem to be contained in the base multi plane of unicode .
i was interested in what characters are element of the set of posix character class (as in set theory). posix should give a set of characters for region specific needs , the set can be modified with localedef (in posix) and gives then a “posix locale” . the normal posix character set is the “portable character set” (103 characters).
i was interested if the posix-character-classes
[[:????:]]were only matching to these specific “posix locale”- set of characters . as for a not posix-supporting operating system like windows this would be obsolete anyway .i assume the posix character class is just another writing for a bracket expression
[??-??], just the posix-syntax of regular expression , not the perl-syntax. a better name would then be posix-syntax-character-class . ffff , it is just a boost-regex-implemented-syntax from posix . so it does not only match a posix-set of characters . excuse my misinterpretation .posix resource : https://pubs.opengroup.org/onlinepubs/9699919799/
posix locale : https://pubs.opengroup.org/onlinepubs/9699919799/
posix portable character set : https://pubs.opengroup.org/onlinepubs/9699919799/ -
Hi, @carypt,
Be patient ! I will answer you, later. Right now, I’m trying to build up a valid
UTF-8test file containing all the1,114,112Unicode code-points !BR
guy038
-
@guy038 ty , there is no need to answer , i think i got it now . i just confused the posix character set with the posix syntax for regexes , a kind of dumb mistake . sry
-
Hello, @carypt, @benjamin-sasse, @peterjones, @alan-kilborn and All,
Finally, I answer you !
First, you said :
so now i know npp has a faster speed for dropping higher unicode characters , ok , the main used chinese etc characters seem to be contained in the base multi plane of unicode .
This statement is not correct and, may be, I was misunderstood !
As I said, the fact to not use the full Unicode support with the N++ Boost regex implementation surely speed up the regex engine, but, in return, prevent us to use any the Unicode regex syntaxes, listed in this page :
However, we still should be able to get the individual characters, with code-point over the
BMPplane, with the logical syntax\x{.....}
( from\x{10000}to\x{10FFFF})Luckily we can access to an individual character, over the
BMP, by using thesurrogatemechanism ! For instance, to match the🚂character (STEAM LOCOMOTIVE), with Unicode code-pointU+1F682, we can use the couple\x{D83D}\x{DE82}as the valuesD83DandDE82represent the high and lowsurrogatepair, of theUTF-16encoding of the code-pointU+1F682!
As I said, in my short previous post, I succeeded to create an
UTF-8-BOMencoded file containing all existing Unicode characters. But, unlike I said, I don’t have to store all the Unicode characters (1,114,112) as :-
Some zones are forbidden, as definitively declared
NON-Characterszones by the Unicode Consortium -
The Surrogates zone (
[\x{D800}-\x{DFFF}]), used to code the characters over theBMPin anUTF-16encoded file are forbidden -
Some Unicode planes ( Planes
3to14) are totally empty, as not used, up to now and probably for a long time -
The Unicode planes
15and16, standing for theSupplementary Private Use Areas, are generally not used, either
Here is a table which recapitulates the layout of all the Unicode characters :
•--------------------•-------------------•------------•---------------------------•------------•-------------------• | Range | Description | Status | Number of Chars | Encoding | Number of Bytes | •--------------------•-------------------•------------•-------------•-------------•------------•-------------------• | 0000 - 007F | PLANE 0 - BMP | Included | | 128 | 1 Byte | 128 | •--------------------•-------------------•------------•-------------•-------------•------------•-------------------• | 0080 - 0FFF | PLANE 0 - BMP | Included | | + 1.920 | 2 Bytes | 3,840 | •--------------------•-------------------•------------•-------------•-------------•------------•-------------------• | 0800 - D7FF | PLANE 0 - BMP | Included | | + 53,248 | | 159,744 | | | | | | | | | | D800 - DFFF | SURROGATES zone | EXCLUDED | - 2.048 | | | | | | | | | | | | | E000 - F8FF | PLANE 0 - PUA | Included | | + 6,400 | | 19,200 | | | | | | | | | | F900 - FDFC | PLANE 0 - BMP | Included | | + 1,232 | 3 Bytes | 3,696 | | | | | | | | | | FDD0 - FDEF | NON-characters | EXCLUDED | - 32 | | | | | | | | | | | | | FDF0 - FFFD | PLANE 0 - BMP | Included | | + 526 | | 1,578 | | | | | | | | | | FFFE - FFFF | NON-characters | EXCLUDED | - 2 | | | | •--------------------•-------------------•------------•-------------•-------------•------------•-------------------• | Plane 0 - BMP | SUB-Totals | - 2,082 | + 63,454 | / | 188,186 | •--------------------•-------------------•------------•-------------•-------------•------------•-------------------• | 10000 - 1FFFD | PLANE 1 - SMP | Included | | + 65,534 | | 262,136 | | | | | | | | | | 1FFFE - 1FFFF | NON-characters | EXCLUDED | - 2 | | | | •--------------------•-------------------•------------•-------------•-------------• •-------------------• | 20000 - 2FFFD | PLANE 2 - SIP | Included | | + 65,534 | | 262,136 | | | | | | | 4 Bytes | | | 2FFFE - 2FFFF | NON-characters | EXCLUDED | - 2 | | | | •--------------------•-------------------•------------•-------------•-------------• •-------------------• | 30000 - 3FFFD | PLANE 3 - TIP | Included | | + 65,534 | | 262,136 | | | | | | | | | | 3FFFE - 3FFFF | NON-characters | EXCLUDED | - 2 | | | | •--------------------•-------------------•------------•-------------•-------------•------------•-------------------• | 40000 - DFFFF | PLANES 4 to 13 | NOT USED | - 655,360 | | 4 Bytes | | •--------------------•-------------------•------------•-------------•-------------•------------•-------------------• | E0000 - EFFFD | PLANE 14 - SPP | Included | | + 65,534 | | 262,136 | | | | | | | | | | EFFFE - EFFFF | NON-characters | EXCLUDED | - 2 | | | | •--------------------•-------------------•------------•-------------•-------------• •-------------------• | FFFF0 - FFFFD | PLANE 15 - SPUA | NOT USED | - 65,334 | | | | | | | | | | | | | FFFFE - FFFFF | NON-characters | EXCLUDED | - 2 | | | | •--------------------•-------------------•------------•-------------•-------------• 4 Bytes •-------------------• | 100000 - 10FFFD | PLANE 16 - SPUA | NOT USED | - 65,334 | | | | | | | | | | | | | 10FFFE - 10FFFF | NON-characters | EXCLUDED | - 2 | | | | •--------------------•-------------------•------------•-------------•-------------•------------•-------------------• | GRAND Totals | - 788,522 | + 325,590 | | 1,236,730 | | | | | | | | Byte Order Mark - BOM | | | / | 3 | •-----------------------------------------------------•-------------•-------------• •-------------------• | | 1,114,112 Unicode chars | | Size 1,236,733 | •-----------------------------------------------------•---------------------------•------------•-------------------•Refer here for additional information
Thus, I’m left with a file with size
1,236,733and containing, exactly,325,590Unicode characters. Of course, depending on the current font used, it is generally not able to display the glyphs of all the characters ! But, it doesn’t matter because we just want to know which, and how many, characters are matched by a specific,POSIXor not,Character class;-))I close this post because any post is limited to
16,000bytes about ! -
-
Hi, @carypt, @benjamin-sasse, @peterjones, @alan-kilborn and All,
Continuation of the discussion :
Now, from this page, here is the summary list of the
15availableCharacter class, known of ourBoostregex engine :•=========================•===============================•==============•===========•===========================================•===============================================================================================================================================• | INSIDE a Class [....] | OUTSIDE a Class [....] | EVERYTHERE | Total | SIMPLIFIED and / or APPROXIMATIVE regex | EXACT or Win-1252-EQUIVALENT regex | •=========================•===============================•==============•===========•===========================================•===============================================================================================================================================• | [:alpha:] | \p{alpha} | | | | 45,813 | (?i)[A-Z] | [^\W\d\x5f] | •---------------•---------•-------------•---------•-------•--------------•-----------•-------------------------------------------•-----------------------------------------------------------------------------------------------------------------------------------------------• | [:digit:] | [:d:] | \p{digit} | \p{d} | \pd | \d | 201 | [0-9] | [0-9¹²³.....] or [0-9¹²³] ( with "Win-1252" Encoding ) | •---------------•---------•-------------•---------•-------•--------------•-----------•-------------------------------------------•-----------------------------------------------------------------------------------------------------------------------------------------------• | [:alnum:] | \p{alnum} | | | | 46,014 | (?i)[0-9A-Z] | [^\W\x5f] | •---------------•---------•-------------•---------•-------•--------------•-----------•-------------------------------------------•-----------------------------------------------------------------------------------------------------------------------------------------------• | [:word:] | [:w:] | \p{word} | \p{w} | \pw | \w | 46,015 | (?i)[0-9_A-Z] | [[:alnum:]\x5F] | •---------------•---------•-------------•---------•-------•--------------•-----------•-------------------------------------------•-----------------------------------------------------------------------------------------------------------------------------------------------• | [:punct:] | \p{punct} | | | | 334 | (?!\w)[[:graph:]] | [!"#$%&'()*+,-./:;<=>?@[\\]^`{|}~‚„…†‡‰‹‘’“”•–—›¡¢£¤¥¦§¨©ª«¬®¯°±²³´µ¶·¸¹º»¼½¾¿×÷] ( with "Win-1252" Encoding ) | •---------------•---------•-------------•---------•-------•--------------•-----------•-------------------------------------------•-----------------------------------------------------------------------------------------------------------------------------------------------• | [:graph:] | \p{graph} | | | | 46,342 | [[:punct:]\w] | (?!ªº_¹²³µ)[[:punct:]]|[[:word:]] or [^[:^punct:][:^word:]] | •---------------•---------•-------------•---------•-------•--------------•-----------•-------------------------------------------•-----------------------------------------------------------------------------------------------------------------------------------------------• | [:print:] | \p{print} | | | | 46,368 | [[:punct:]\w\s] | [[:space:][:graph:]\x{FEFF}] | •---------------•---------•-------------•---------•-------•--------------•-----------•-------------------------------------------•-----------------------------------------------------------------------------------------------------------------------------------------------• | [:space:] | [:s:] | \p{space} | \p{s} | \ps | \s | 25 | [\t\n\r\x20] | [\t\n\x0B\f\r\x20\x85\xA0\x{1680}\x{2000}-\x{200B}\x{2028}\x{2029}\x{202F}\x{3000}] | •---------------•---------•-------------•---------•-------•--------------•-----------•-------------------------------------------•-----------------------------------------------------------------------------------------------------------------------------------------------• | [:h:] | \p{h} | \ph | \h | 18 | [\t\x20] | [\t\x20\xA0\x{1680}\x{2000}-\x{200B}\x{202F}\x{3000}] | •-------------------------•-----------------------•-------•--------------•-----------•-------------------------------------------•-----------------------------------------------------------------------------------------------------------------------------------------------• | [:v:] | \p{v} | \pv | \v | 7 | [\r\n] | [\n\x0b\f\r\x85\x{2028}\x{2029}] | •---------------•---------•-------------•---------•-------•--------------•-----------•-------------------------------------------•-----------------------------------------------------------------------------------------------------------------------------------------------• | [:upper:] | [:u:] | \p{upper} | \p{u} | \pu | \u | 717 | (?-i)[A-Z] | (?-i)[A-ZŠŒŽŸÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖØÙÚÛÜÝÞ..........] or (?-i)[A-ZŠŒŽŸÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖØÙÚÛÜÝÞ] ( with "Win-1252" Encoding ) | •---------------•---------•-------------•---------•-------•--------------•-----------•-------------------------------------------•-----------------------------------------------------------------------------------------------------------------------------------------------• | [:lower:] | [:l:] | \p{lower} | \p{l} | \pl | \l | 835 | (?-i)[a-z] | (?-i)[a-zƒšœžªµºßàáâãäåæçèéêëìíîïðñòóôõöøùúûüýþÿ.....] or (?-i)[a-zƒšœžªµºßàáâãäåæçèéêëìíîïðñòóôõöøùúûüýþÿ] ( with "Win-1252" Encoding ) | •---------------•---------•-------------•---------•-------•--------------•-----------•-------------------------------------------•-----------------------------------------------------------------------------------------------------------------------------------------------• | [:cntrl:] | \p{cntrl} | | | | 89 | [\x00-\x1F\x7F\x80-\x9F] | [\x00-\x1F\x7F\x80-\x9F\x{070F}\x{180B}-\x{180E}\x{200C}-\x{200F}\x{202A}-\x{202E}\x{206A}-\x{206F}\x{FEFF}\x{FFF9}-\x{FFFB}] | •-------------------------•-------------•---------•-------•--------------•-----------•-------------------------------------------•-----------------------------------------------------------------------------------------------------------------------------------------------• | [:xdigit:] | \p{xdigit} | | | | 44 | (?i)[A-F0-9] | (?i)[A-F0-9\x{FF10}-\x{FF19}\x{FF21}-\x{FF26}] | •-------------------------•-------------•---------•-------•--------------•-----------•-------------------------------------------•-----------------------------------------------------------------------------------------------------------------------------------------------• | [:blank:] | \p{blank} | | | | 5 | [\t\x20\xA0] | [\t\x20\xA0\x{3000}\x{FEFF}] | •-------------------------•-------------•---------•-------•--------------•-----------•-------------------------------------------•-----------------------------------------------------------------------------------------------------------------------------------------------• | [:unicode:] | \p{unicode} | | | | 325,334 | [^\x00-\xFF] | [^\x00-\xFF] | •------------------------------------------------------------------------•-----------•-------------------------------------------•-----------------------------------------------------------------------------------------------------------------------------------------------• | ANY Unicode character | 325,590 | (?s). | (?s). | •========================================================================•===========•===========================================•===============================================================================================================================================•Notes :
-
As you can see, the regex syntaxes are different according to the location of the
Character class! -
The Total column shows the number of characters, matched by the respective
Character class, out of the325,590characters -
To express a negative
Character class, use the syntax :-
[:^class:]or[:^c:]when thisPOSIXclass is located inside a classical[.....]Character class -
\P{class}or\P{c}or\Pc, when located outside a classical[.....]Character class -
\<Uppercase_letter>, whatever its location
-
-
If a
POSIXclass is isolated into aCharacter class, you can use, either, the[^[:class:]]or[^[:class:]]syntax
Between
Character Classes, we have the following mathematical relations :-
[[:alnum:]]=[[alpha:]]+[[digit:]] -
[[word:]]=[[:alnum:]]+\x5F(_char ) -
[[:graph:]]=[[:punct:]]-[ªº_¹²³µ]+[[word:]] -
[[:print:]]=[[:space:]]+[[:graph:]]+\x{FEFF}( ZWNBSP = Zero_With_No_Break_Space ) -
[[:space:]]=[[:h:]]+[[:v:]] -
[[unicode:]]= <All> (325,590) - First256( from\x00to\xFF)
See you in next post !
-
-
Hi, @carypt, @benjamin-sasse, @peterjones, @alan-kilborn and All,
End of the discussion :
Now, our
Boostregex engine correctly handles the Collating symbol syntax ([.•••••.])Here is the table of all the available
POSIXsymbolic names, as described here•============================•============================•=============•=============•=============• | POSIX symbolic name | ESCAPED symbolic name | Character | DEC value | HEX Value | •============================•============================•===========================•=============• | [.NUL.] | \N{NUL} | NUL | 000 | \x00 | | [.SOH.] | \N{SOH} | SOH | 001 | \x01 | | [.STX.] | \N{STX} | STX | 002 | \x02 | | [.ETX.] | \N{ETX} | ETX | 003 | \x03 | | [.EOT.] | \N{EOT} | EOT | 004 | \x04 | | [.ENQ.] | \N{ENQ} | ENQ | 005 | \x05 | | [.ACK.] | \N{ACK} | ACK | 006 | \x06 | | [.alert.] | \N{alert} | BEL | 007 | \x07 | | [.backspace.] | \N{backspace} | BS | 008 | \x08 | | [.tab.] | \N{tab} | TAB | 009 | \x09 | | [.newline.] | \N{newline} | LF | 010 | \x0A | | [.vertical-tab.] | \N{vertical-tab} | VT | 011 | \x0B | | [.form-feed.] | \N{form-feed} | FF | 012 | \x0C | | [.carriage-return.] | \N{carriage-return} | CR | 013 | \x0D | | [.SO.] | \N{SO} | SO | 014 | \x0E | | [.SI.] | \N{SI} | SI | 015 | \x0F | | [.DLE.] | \N{DLE} | DLE | 016 | \x10 | | [.DC1.] | \N{DC1} | DC1 | 017 | \x11 | | [.DC2.] | \N{DC2} | DC2 | 018 | \x12 | | [.DC3.] | \N{DC3} | DC3 | 019 | \x13 | | [.DC4.] | \N{DC4} | DC4 | 020 | \x14 | | [.NAK.] | \N{NAK} | NAK | 021 | \x15 | | [.SYN.] | \N{SYN} | SYN | 022 | \x16 | | [.ETB.] | \N{ETB} | ETB | 023 | \x17 | | [.CAN.] | \N{CAN} | CAN | 024 | \x18 | | [.EM.] | \N{EM} | EM | 025 | \x19 | | [.SUB.] | \N{SUB} | SUB | 026 | \x1A | | [.ESC.] | \N{ESC} | ESC | 027 | \x1B | | [.IS4.] | \N{IS4} | FS | 028 | \x1C | | [.IS3.] | \N{IS3} | GS | 029 | \x1D | | [.IS2.] | \N{IS2} | RS | 030 | \x1E | | [.IS1.] | \N{IS1} | US | 031 | \x1F | | [.space.] | \N{space} | SP | 032 | \x20 | | [.exclamation-mark.] | \N{exclamation-mark} | ! | 033 | \x21 | | [.quotation-mark.] | \N{quotation-mark} | " | 034 | \x22 | | [.number-sign.] | \N{number-sign} | # | 035 | \x23 | | [.dollar-sign.] | \N{dollar-sign} | $ | 036 | \x24 | | [.percent-sign.] | \N{percent-sign} | % | 037 | \x25 | | [.ampersand.] | \N{ampersand} | & | 038 | \x26 | | [.apostrophe.] | \N{apostrophe} | ' | 039 | \x27 | | [.left-parenthesis.] | \N{left-parenthesis} | ( | 040 | \x28 | | [.right-parenthesis.] | \N{right-parenthesis} | ) | 041 | \x29 | | [.asterisk.] | \N{asterisk} | * | 042 | \x2A | | [.plus-sign.] | \N{plus-sign} | + | 043 | \x2B | | [.comma.] | \N{comma} | , | 044 | \x2C | | [.hyphen.] | \N{hyphen} | - | 045 | \x2D | | [.period.] | \N{period} | . | 046 | \x2E | | [.slash.] | \N{slash} | / | 047 | \x2F | | [.zero.] | \N{zero} | 0 | 048 | \x30 | | [.one.] | \N{one} | 1 | 049 | \x31 | | [.two.] | \N{two} | 2 | 050 | \x32 | | [.three.] | \N{three} | 3 | 051 | \x33 | | [.four.] | \N{four} | 4 | 052 | \x34 | | [.five.] | \N{five} | 5 | 053 | \x35 | | [.six.] | \N{six} | 6 | 054 | \x36 | | [.seven.] | \N{seven} | 7 | 055 | \x37 | | [.eight.] | \N{eight} | 8 | 056 | \x38 | | [.nine.] | \N{nine} | 9 | 057 | \x39 | | [.colon.] | \N{colon} | : | 058 | \x3A | | [.semicolon.] | \N{semicolon} | ; | 059 | \x3B | | [.less-than-sign.] | \N{less-than-sign} | < | 060 | \x3C | | [.equals-sign.] | \N{equals-sign} | = | 061 | \x3D | | [.greater-than-sign.] | \N{greater-than-sign} | > | 062 | \x3E | | [.question-mark.] | \N{question-mark} | ? | 063 | \x3F | | [.commercial-at.] | \N{commercial-at} | @ | 064 | \x40 | | [.A.] | \N{A} | A | 065 | \x41 | | ....... | ........ | ... | ..... | ...... | | [.Z.] | \N{Z} | Z | 090 | \x5A | | [.left-square-bracket.] | \N{left-square-bracket} | [ | 091 | \x5B | | [.backslash.] | \N{backslash} | \ | 092 | \x5C | | [.right-square-bracket.] | \N{right-square-bracket} | ] | 093 | \x5D | | [.circumflex.] | \N{circumflex} | ^ | 094 | \x5E | | [.underscore.] | \N{underscore} | _ | 095 | \x5F | | [.grave-accent.] | \N{grave-accent} | ` | 096 | \x60 | | [.a.] | \N{a} | a | 097 | \x61 | | ....... | ........ | ... | ..... | ...... | | [.z.] | \N{z} | z | 122 | \x7A | | [.left-curly-bracket.] | \N{left-curly-bracket} | { | 123 | \x7B | | [.vertical-line.] | \N{vertical-line} | | | 124 | \x7C | | [.right-curly-bracket.] | \N{right-curly-bracket} | } | 125 | \x7D | | [.tilde.] | \N{tilde} | ~ | 126 | \x7E | | [.DEL.] | \N{DEL} | DEL | 127 | \x7F | •============================•============================•=============•=============•=============•Notes :
-
The case of the symbolic name must be exactly respected !
-
The POSIX
[.•••.]syntax must be used inside a classicalCharacter class, only -
The
\N{...}syntax can be used whatever its location -
A
POSIXsymbolic name can also represents the character itself !
Examples :
-
[[.IS2.]]represents the RECORD SEPARATOR (RS) character, of code\x1E -
\N{plus-sign}is the+sign, of code\x2B -
[\N{number-sign}[.six.][.].]]represents the#sign or the6digit or the closing bracket]
As you can see, @carypt, this above list respects, exactly, the
Portable character Setnorm, as described in these articles :https://en.wikipedia.org/wiki/Portable_character_set
https://pubs.opengroup.org/onlinepubs/009695399/basedefs/xbd_chap06.html
Our
Boostregex engine also knows somedigraphs, when used as acollatingname :•----------•----------•------------------------------------------------• | Regex | Digraph | Origin | •----------•----------•------------------------------------------------• | [.AE.] | AE | | | [.Ae.] | Ae | Latin ligature | | [.ae.] | ae | | •----------•----------•------------------------------------------------• | [.CH.] | CH | | | [.Ch.] | Ch | Spanish | | [.ch.] | ch | | •----------•----------•------------------------------------------------• | [.DZ.] | DZ | | | [.Dz.] | Dz | Hungarian - Polish - Slovak - Serbo-Croatian | | [.dz.] | dz | | •----------•----------•------------------------------------------------• | [.LJ.] | LJ | | | [.Lj.] | Lj | Serbo-Croatian | | [.lj.] | lj | | •----------•----------•------------------------------------------------• | [.LL.] | LL | | | [.Ll.] | Ll | Spanish | | [.ll.] | ll | | •----------•----------•------------------------------------------------• | [.NJ.] | NJ | | | [.Nj.] | Nj | Serbo-Croatian | | [.nj.] | nj | | •----------•----------•------------------------------------------------• | [.SS.] | SS | | | [.Ss.] | Ss | German | | [.ss.] | ss | | •----------•----------•------------------------------------------------•Refer here and here for further information !
Example :
- The regex
(?-i)[[.Dz.]-[.Lj.]]matches the digraphDz( but notD), or one of the uppercase letters[EFGHIJKL]or the digraphLj. Test this regex against this text :
C c D d DZ Dz dz E e F f G g H h I i J j K k L l LJ Lj lj LL Ll ll M m N n -- - - - - - - - - •• -- •• •Note that, if the N++
Boostlibrary had been build with full Unicode support, all the Unicode names would had been recognized ! For example, in this page :Instead of using the classical syntax
\x{0418}to match the Cyrillic capital letterI, we could use a Unicode symbolic name, with the collating name[[.CYRILLIC CAPITAL LETTER I.]], which match the Cyrillic letterИ
Finally, we must speak of an interesting feature, named
Equivalence class:An equivalent class matches all the equivalent characters of a specific Unicode character, whatever the case, the accentuation, the size and other specificities of these characters
Its syntax is
[=Char=], where char represents an unique character and must be inserted in a classicalCharacter classFor instance :
-
The regex
[[=A=]]matches one<A>character of the range :[AaªÀÁÂÃÄÅàáâãäåĀāĂ㥹ǍǎǞǟǠǡǺǻȀȁȂȃɐɑɒḀḁẚẠạẢảẤấẦầẨẩẪẫẬậẮắẰằẲẳẴẵẶặÅ⒜ⒶⓐAa] -
The regex
[[=1=]]is equivalent to the regex[1¹₁⅟①⑴⒈❶➀➊1] -
The
[[===]]finds any single character of the range[=⁼₌⊜=] -
The
[[=plus-sign=]]regex matches one character from[⁺₊⊕⊞+] -
The
[[=Ae=]]syntax finds any one-char from the range[ÆæǢǣǼǽ]
Notes :
-
The char, between the two
=signs may also bedigraphor asymbolic name -
Any single character of the range may be used. For instance, the regexes
[[=A=]],[[=⒜=]], and[[=Ȁ=]]are equivalent and would match the same characters
To this purpose, have a look to the collation charts here
I hope, @carypt, that you have found some interesting things for your daily work !
Best Regards,
guy038
-
