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.TH PCRE2UNICODE 3 "24 May 2019" "PCRE2 10.34"
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.SH NAME
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PCRE - Perl-compatible regular expressions (revised API)
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.SH "UNICODE AND UTF SUPPORT"
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.rs
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.sp
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PCRE2 is normally built with Unicode support, though if you do not need it, you
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can build it without, in which case the library will be smaller. With Unicode
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support, PCRE2 has knowledge of Unicode character properties and can process
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text strings in UTF-8, UTF-16, or UTF-32 format (depending on the code unit
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width), but this is not the default. Unless specifically requested, PCRE2
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treats each code unit in a string as one character.
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.P
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There are two ways of telling PCRE2 to switch to UTF mode, where characters may
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consist of more than one code unit and the range of values is constrained. The
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program can call
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.\" HREF
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\fBpcre2_compile()\fP
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.\"
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with the PCRE2_UTF option, or the pattern may start with the sequence (*UTF).
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However, the latter facility can be locked out by the PCRE2_NEVER_UTF option.
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That is, the programmer can prevent the supplier of the pattern from switching
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to UTF mode.
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.P
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Note that the PCRE2_MATCH_INVALID_UTF option (see
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.\" HTML <a href="#matchinvalid">
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.\" </a>
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below)
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.\"
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forces PCRE2_UTF to be set.
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.P
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In UTF mode, both the pattern and any subject strings that are matched against
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it are treated as UTF strings instead of strings of individual one-code-unit
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characters. There are also some other changes to the way characters are
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handled, as documented below.
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.
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.
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.SH "UNICODE PROPERTY SUPPORT"
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.rs
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.sp
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When PCRE2 is built with Unicode support, the escape sequences \ep{..},
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\eP{..}, and \eX can be used. This is not dependent on the PCRE2_UTF setting.
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The Unicode properties that can be tested are limited to the general category
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properties such as Lu for an upper case letter or Nd for a decimal number, the
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Unicode script names such as Arabic or Han, and the derived properties Any and
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L&. Full lists are given in the
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.\" HREF
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\fBpcre2pattern\fP
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.\"
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and
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.\" HREF
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\fBpcre2syntax\fP
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.\"
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documentation. Only the short names for properties are supported. For example,
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\ep{L} matches a letter. Its Perl synonym, \ep{Letter}, is not supported.
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Furthermore, in Perl, many properties may optionally be prefixed by "Is", for
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compatibility with Perl 5.6. PCRE2 does not support this.
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.
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.
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.SH "WIDE CHARACTERS AND UTF MODES"
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.rs
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.sp
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Code points less than 256 can be specified in patterns by either braced or
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unbraced hexadecimal escape sequences (for example, \ex{b3} or \exb3). Larger
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values have to use braced sequences. Unbraced octal code points up to \e777 are
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also recognized; larger ones can be coded using \eo{...}.
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.P
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The escape sequence \eN{U+<hex digits>} is recognized as another way of
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specifying a Unicode character by code point in a UTF mode. It is not allowed
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in non-UTF mode.
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.P
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In UTF mode, repeat quantifiers apply to complete UTF characters, not to
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individual code units.
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.P
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In UTF mode, the dot metacharacter matches one UTF character instead of a
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single code unit.
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.P
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In UTF mode, capture group names are not restricted to ASCII, and may contain
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any Unicode letters and decimal digits, as well as underscore.
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.P
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The escape sequence \eC can be used to match a single code unit in UTF mode,
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but its use can lead to some strange effects because it breaks up multi-unit
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characters (see the description of \eC in the
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.\" HREF
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\fBpcre2pattern\fP
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.\"
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documentation). For this reason, there is a build-time option that disables
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support for \eC completely. There is also a less draconian compile-time option
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for locking out the use of \eC when a pattern is compiled.
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2016-07-02 18:34:01 +02:00
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.P
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The use of \eC is not supported by the alternative matching function
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\fBpcre2_dfa_match()\fP when in UTF-8 or UTF-16 mode, that is, when a character
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may consist of more than one code unit. The use of \eC in these modes provokes
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a match-time error. Also, the JIT optimization does not support \eC in these
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modes. If JIT optimization is requested for a UTF-8 or UTF-16 pattern that
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contains \eC, it will not succeed, and so when \fBpcre2_match()\fP is called,
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the matching will be carried out by the interpretive function.
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.P
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The character escapes \eb, \eB, \ed, \eD, \es, \eS, \ew, and \eW correctly test
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characters of any code value, but, by default, the characters that PCRE2
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recognizes as digits, spaces, or word characters remain the same set as in
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non-UTF mode, all with code points less than 256. This remains true even when
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PCRE2 is built to include Unicode support, because to do otherwise would slow
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down matching in many common cases. Note that this also applies to \eb
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and \eB, because they are defined in terms of \ew and \eW. If you want
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to test for a wider sense of, say, "digit", you can use explicit Unicode
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property tests such as \ep{Nd}. Alternatively, if you set the PCRE2_UCP option,
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the way that the character escapes work is changed so that Unicode properties
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are used to determine which characters match. There are more details in the
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section on
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.\" HTML <a href="pcre2pattern.html#genericchartypes">
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.\" </a>
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generic character types
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.\"
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in the
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.\" HREF
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\fBpcre2pattern\fP
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.\"
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documentation.
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.P
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Similarly, characters that match the POSIX named character classes are all
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low-valued characters, unless the PCRE2_UCP option is set.
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.P
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However, the special horizontal and vertical white space matching escapes (\eh,
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\eH, \ev, and \eV) do match all the appropriate Unicode characters, whether or
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not PCRE2_UCP is set.
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.
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.
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.SH "CASE-EQUIVALENCE IN UTF MODE"
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.rs
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.sp
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Case-insensitive matching in UTF mode makes use of Unicode properties except
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for characters whose code points are less than 128 and that have at most two
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case-equivalent values. For these, a direct table lookup is used for speed. A
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2018-06-17 16:13:28 +02:00
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few Unicode characters such as Greek sigma have more than two code points that
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are case-equivalent, and these are treated specially.
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.
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.
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.\" HTML <a name="scriptruns"></a>
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.SH "SCRIPT RUNS"
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.rs
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.sp
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The pattern constructs (*script_run:...) and (*atomic_script_run:...), with
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synonyms (*sr:...) and (*asr:...), verify that the string matched within the
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parentheses is a script run. In concept, a script run is a sequence of
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characters that are all from the same Unicode script. However, because some
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scripts are commonly used together, and because some diacritical and other
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marks are used with multiple scripts, it is not that simple.
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.P
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Every Unicode character has a Script property, mostly with a value
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corresponding to the name of a script, such as Latin, Greek, or Cyrillic. There
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are also three special values:
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.P
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"Unknown" is used for code points that have not been assigned, and also for the
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surrogate code points. In the PCRE2 32-bit library, characters whose code
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points are greater than the Unicode maximum (U+10FFFF), which are accessible
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only in non-UTF mode, are assigned the Unknown script.
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.P
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"Common" is used for characters that are used with many scripts. These include
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punctuation, emoji, mathematical, musical, and currency symbols, and the ASCII
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digits 0 to 9.
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.P
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"Inherited" is used for characters such as diacritical marks that modify a
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previous character. These are considered to take on the script of the character
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that they modify.
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.P
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Some Inherited characters are used with many scripts, but many of them are only
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normally used with a small number of scripts. For example, U+102E0 (Coptic
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Epact thousands mark) is used only with Arabic and Coptic. In order to make it
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possible to check this, a Unicode property called Script Extension exists. Its
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value is a list of scripts that apply to the character. For the majority of
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characters, the list contains just one script, the same one as the Script
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property. However, for characters such as U+102E0 more than one Script is
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listed. There are also some Common characters that have a single, non-Common
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script in their Script Extension list.
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.P
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2019-03-04 19:07:04 +01:00
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The next section describes the basic rules for deciding whether a given string
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of characters is a script run. Note, however, that there are some special cases
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involving the Chinese Han script, and an additional constraint for decimal
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digits. These are covered in subsequent sections.
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.
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.
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.SS "Basic script run rules"
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.rs
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.sp
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A string that is less than two characters long is a script run. This is the
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only case in which an Unknown character can be part of a script run. Longer
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strings are checked using only the Script Extensions property, not the basic
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Script property.
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.P
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If a character's Script Extension property is the single value "Inherited", it
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is always accepted as part of a script run. This is also true for the property
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"Common", subject to the checking of decimal digits described below. All the
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remaining characters in a script run must have at least one script in common in
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their Script Extension lists. In set-theoretic terminology, the intersection of
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all the sets of scripts must not be empty.
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.P
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A simple example is an Internet name such as "google.com". The letters are all
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in the Latin script, and the dot is Common, so this string is a script run.
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However, the Cyrillic letter "o" looks exactly the same as the Latin "o"; a
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string that looks the same, but with Cyrillic "o"s is not a script run.
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.P
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2019-03-04 19:07:04 +01:00
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More interesting examples involve characters with more than one script in their
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Script Extension. Consider the following characters:
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.sp
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U+060C Arabic comma
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U+06D4 Arabic full stop
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.sp
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The first has the Script Extension list Arabic, Hanifi Rohingya, Syriac, and
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Thaana; the second has just Arabic and Hanifi Rohingya. Both of them could
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appear in script runs of either Arabic or Hanifi Rohingya. The first could also
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appear in Syriac or Thaana script runs, but the second could not.
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.
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.
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.SS "The Chinese Han script"
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.rs
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2019-03-04 19:07:04 +01:00
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.sp
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The Chinese Han script is commonly used in conjunction with other scripts for
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writing certain languages. Japanese uses the Hiragana and Katakana scripts
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together with Han; Korean uses Hangul and Han; Taiwanese Mandarin uses Bopomofo
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and Han. These three combinations are treated as special cases when checking
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script runs and are, in effect, "virtual scripts". Thus, a script run may
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contain a mixture of Hiragana, Katakana, and Han, or a mixture of Hangul and
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Han, or a mixture of Bopomofo and Han, but not, for example, a mixture of
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Hangul and Bopomofo and Han. PCRE2 (like Perl) follows Unicode's Technical
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Standard 39 ("Unicode Security Mechanisms", http://unicode.org/reports/tr39/)
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in allowing such mixtures.
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.
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.
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.SS "Decimal digits"
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.rs
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.sp
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Unicode contains many sets of 10 decimal digits in different scripts, and some
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scripts (including the Common script) contain more than one set. Some of these
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decimal digits them are visually indistinguishable from the common ASCII
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digits. In addition to the script checking described above, if a script run
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contains any decimal digits, they must all come from the same set of 10
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adjacent characters.
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.
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.
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2014-09-19 09:43:39 +02:00
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.SH "VALIDITY OF UTF STRINGS"
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.rs
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.sp
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When the PCRE2_UTF option is set, the strings passed as patterns and subjects
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2019-03-06 18:38:20 +01:00
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are (by default) checked for validity on entry to the relevant functions. If an
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invalid UTF string is passed, a negative error code is returned. The code unit
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2019-03-06 18:38:20 +01:00
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offset to the offending character can be extracted from the match data block by
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calling \fBpcre2_get_startchar()\fP, which is used for this purpose after a UTF
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error.
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.P
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In some situations, you may already know that your strings are valid, and
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therefore want to skip these checks in order to improve performance, for
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example in the case of a long subject string that is being scanned repeatedly.
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If you set the PCRE2_NO_UTF_CHECK option at compile time or at match time,
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PCRE2 assumes that the pattern or subject it is given (respectively) contains
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only valid UTF code unit sequences.
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.P
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If you pass an invalid UTF string when PCRE2_NO_UTF_CHECK is set, the result
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2019-05-24 19:15:48 +02:00
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is undefined and your program may crash or loop indefinitely or give incorrect
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results. There is, however, one mode of matching that can handle invalid UTF
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subject strings. This is enabled by passing PCRE2_MATCH_INVALID_UTF to
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\fBpcre2_compile()\fP and is discussed below in the next section. The rest of
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this section covers the case when PCRE2_MATCH_INVALID_UTF is not set.
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2019-03-06 18:38:20 +01:00
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.P
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2019-05-24 19:15:48 +02:00
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Passing PCRE2_NO_UTF_CHECK to \fBpcre2_compile()\fP just disables the UTF check
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for the pattern; it does not also apply to subject strings. If you want to
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disable the check for a subject string you must pass this same option to
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2019-03-06 18:38:20 +01:00
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\fBpcre2_match()\fP or \fBpcre2_dfa_match()\fP.
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2014-09-19 09:43:39 +02:00
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.P
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UTF-16 and UTF-32 strings can indicate their endianness by special code knows
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as a byte-order mark (BOM). The PCRE2 functions do not handle this, expecting
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strings to be in host byte order.
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.P
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2019-03-06 18:38:20 +01:00
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Unless PCRE2_NO_UTF_CHECK is set, a UTF string is checked before any other
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processing takes place. In the case of \fBpcre2_match()\fP and
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\fBpcre2_dfa_match()\fP calls with a non-zero starting offset, the check is
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applied only to that part of the subject that could be inspected during
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matching, and there is a check that the starting offset points to the first
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code unit of a character or to the end of the subject. If there are no
|
|
|
|
lookbehind assertions in the pattern, the check starts at the starting offset.
|
|
|
|
Otherwise, it starts at the length of the longest lookbehind before the
|
2015-08-18 12:34:05 +02:00
|
|
|
starting offset, or at the start of the subject if there are not that many
|
|
|
|
characters before the starting offset. Note that the sequences \eb and \eB are
|
|
|
|
one-character lookbehinds.
|
|
|
|
.P
|
|
|
|
In addition to checking the format of the string, there is a check to ensure
|
|
|
|
that all code points lie in the range U+0 to U+10FFFF, excluding the surrogate
|
|
|
|
area. The so-called "non-character" code points are not excluded because
|
|
|
|
Unicode corrigendum #9 makes it clear that they should not be.
|
2014-09-19 09:43:39 +02:00
|
|
|
.P
|
|
|
|
Characters in the "Surrogate Area" of Unicode are reserved for use by UTF-16,
|
|
|
|
where they are used in pairs to encode code points with values greater than
|
|
|
|
0xFFFF. The code points that are encoded by UTF-16 pairs are available
|
|
|
|
independently in the UTF-8 and UTF-32 encodings. (In other words, the whole
|
|
|
|
surrogate thing is a fudge for UTF-16 which unfortunately messes up UTF-8 and
|
|
|
|
UTF-32.)
|
|
|
|
.P
|
2019-03-06 18:38:20 +01:00
|
|
|
Setting PCRE2_NO_UTF_CHECK at compile time does not disable the error that is
|
|
|
|
given if an escape sequence for an invalid Unicode code point is encountered in
|
|
|
|
the pattern. If you want to allow escape sequences such as \ex{d800} (a
|
|
|
|
surrogate code point) you can set the PCRE2_EXTRA_ALLOW_SURROGATE_ESCAPES extra
|
|
|
|
option. However, this is possible only in UTF-8 and UTF-32 modes, because these
|
|
|
|
values are not representable in UTF-16.
|
2014-09-19 09:43:39 +02:00
|
|
|
.
|
|
|
|
.
|
|
|
|
.\" HTML <a name="utf8strings"></a>
|
|
|
|
.SS "Errors in UTF-8 strings"
|
|
|
|
.rs
|
|
|
|
.sp
|
|
|
|
The following negative error codes are given for invalid UTF-8 strings:
|
|
|
|
.sp
|
|
|
|
PCRE2_ERROR_UTF8_ERR1
|
|
|
|
PCRE2_ERROR_UTF8_ERR2
|
|
|
|
PCRE2_ERROR_UTF8_ERR3
|
|
|
|
PCRE2_ERROR_UTF8_ERR4
|
|
|
|
PCRE2_ERROR_UTF8_ERR5
|
|
|
|
.sp
|
|
|
|
The string ends with a truncated UTF-8 character; the code specifies how many
|
|
|
|
bytes are missing (1 to 5). Although RFC 3629 restricts UTF-8 characters to be
|
|
|
|
no longer than 4 bytes, the encoding scheme (originally defined by RFC 2279)
|
|
|
|
allows for up to 6 bytes, and this is checked first; hence the possibility of
|
|
|
|
4 or 5 missing bytes.
|
|
|
|
.sp
|
|
|
|
PCRE2_ERROR_UTF8_ERR6
|
|
|
|
PCRE2_ERROR_UTF8_ERR7
|
|
|
|
PCRE2_ERROR_UTF8_ERR8
|
|
|
|
PCRE2_ERROR_UTF8_ERR9
|
|
|
|
PCRE2_ERROR_UTF8_ERR10
|
|
|
|
.sp
|
|
|
|
The two most significant bits of the 2nd, 3rd, 4th, 5th, or 6th byte of the
|
|
|
|
character do not have the binary value 0b10 (that is, either the most
|
|
|
|
significant bit is 0, or the next bit is 1).
|
|
|
|
.sp
|
|
|
|
PCRE2_ERROR_UTF8_ERR11
|
|
|
|
PCRE2_ERROR_UTF8_ERR12
|
|
|
|
.sp
|
|
|
|
A character that is valid by the RFC 2279 rules is either 5 or 6 bytes long;
|
|
|
|
these code points are excluded by RFC 3629.
|
|
|
|
.sp
|
|
|
|
PCRE2_ERROR_UTF8_ERR13
|
|
|
|
.sp
|
2019-05-11 13:43:39 +02:00
|
|
|
A 4-byte character has a value greater than 0x10ffff; these code points are
|
2014-09-19 09:43:39 +02:00
|
|
|
excluded by RFC 3629.
|
|
|
|
.sp
|
|
|
|
PCRE2_ERROR_UTF8_ERR14
|
|
|
|
.sp
|
|
|
|
A 3-byte character has a value in the range 0xd800 to 0xdfff; this range of
|
|
|
|
code points are reserved by RFC 3629 for use with UTF-16, and so are excluded
|
|
|
|
from UTF-8.
|
|
|
|
.sp
|
|
|
|
PCRE2_ERROR_UTF8_ERR15
|
|
|
|
PCRE2_ERROR_UTF8_ERR16
|
|
|
|
PCRE2_ERROR_UTF8_ERR17
|
|
|
|
PCRE2_ERROR_UTF8_ERR18
|
|
|
|
PCRE2_ERROR_UTF8_ERR19
|
|
|
|
.sp
|
|
|
|
A 2-, 3-, 4-, 5-, or 6-byte character is "overlong", that is, it codes for a
|
|
|
|
value that can be represented by fewer bytes, which is invalid. For example,
|
|
|
|
the two bytes 0xc0, 0xae give the value 0x2e, whose correct coding uses just
|
|
|
|
one byte.
|
|
|
|
.sp
|
|
|
|
PCRE2_ERROR_UTF8_ERR20
|
|
|
|
.sp
|
|
|
|
The two most significant bits of the first byte of a character have the binary
|
|
|
|
value 0b10 (that is, the most significant bit is 1 and the second is 0). Such a
|
|
|
|
byte can only validly occur as the second or subsequent byte of a multi-byte
|
|
|
|
character.
|
|
|
|
.sp
|
|
|
|
PCRE2_ERROR_UTF8_ERR21
|
|
|
|
.sp
|
|
|
|
The first byte of a character has the value 0xfe or 0xff. These values can
|
|
|
|
never occur in a valid UTF-8 string.
|
|
|
|
.
|
|
|
|
.
|
|
|
|
.\" HTML <a name="utf16strings"></a>
|
|
|
|
.SS "Errors in UTF-16 strings"
|
|
|
|
.rs
|
|
|
|
.sp
|
|
|
|
The following negative error codes are given for invalid UTF-16 strings:
|
|
|
|
.sp
|
2016-07-03 17:21:01 +02:00
|
|
|
PCRE2_ERROR_UTF16_ERR1 Missing low surrogate at end of string
|
|
|
|
PCRE2_ERROR_UTF16_ERR2 Invalid low surrogate follows high surrogate
|
|
|
|
PCRE2_ERROR_UTF16_ERR3 Isolated low surrogate
|
2014-09-19 09:43:39 +02:00
|
|
|
.sp
|
|
|
|
.
|
|
|
|
.
|
|
|
|
.\" HTML <a name="utf32strings"></a>
|
|
|
|
.SS "Errors in UTF-32 strings"
|
|
|
|
.rs
|
|
|
|
.sp
|
|
|
|
The following negative error codes are given for invalid UTF-32 strings:
|
|
|
|
.sp
|
2016-07-03 17:21:01 +02:00
|
|
|
PCRE2_ERROR_UTF32_ERR1 Surrogate character (0xd800 to 0xdfff)
|
|
|
|
PCRE2_ERROR_UTF32_ERR2 Code point is greater than 0x10ffff
|
2014-09-19 09:43:39 +02:00
|
|
|
.sp
|
|
|
|
.
|
|
|
|
.
|
2019-05-24 19:15:48 +02:00
|
|
|
.\" HTML <a name="matchinvalid"></a>
|
|
|
|
.SH "MATCHING IN INVALID UTF STRINGS"
|
|
|
|
.rs
|
|
|
|
.sp
|
|
|
|
You can run pattern matches on subject strings that may contain invalid UTF
|
|
|
|
sequences if you call \fBpcre2_compile()\fP with the PCRE2_MATCH_INVALID_UTF
|
|
|
|
option. This is supported by \fBpcre2_match()\fP, including JIT matching, but
|
|
|
|
not by \fBpcre2_dfa_match()\fP. When PCRE2_MATCH_INVALID_UTF is set, it forces
|
2019-10-17 18:39:38 +02:00
|
|
|
PCRE2_UTF to be set as well. Note, however, that the pattern itself must be a
|
2019-05-24 19:15:48 +02:00
|
|
|
valid UTF string.
|
|
|
|
.P
|
|
|
|
Setting PCRE2_MATCH_INVALID_UTF does not affect what \fBpcre2_compile()\fP
|
|
|
|
generates, but if \fBpcre2_jit_compile()\fP is subsequently called, it does
|
|
|
|
generate different code. If JIT is not used, the option affects the behaviour
|
|
|
|
of the interpretive code in \fBpcre2_match()\fP. When PCRE2_MATCH_INVALID_UTF
|
|
|
|
is set at compile time, PCRE2_NO_UTF_CHECK is ignored at match time.
|
|
|
|
.P
|
|
|
|
In this mode, an invalid code unit sequence in the subject never matches any
|
|
|
|
pattern item. It does not match dot, it does not match \ep{Any}, it does not
|
|
|
|
even match negative items such as [^X]. A lookbehind assertion fails if it
|
|
|
|
encounters an invalid sequence while moving the current point backwards. In
|
|
|
|
other words, an invalid UTF code unit sequence acts as a barrier which no match
|
|
|
|
can cross.
|
|
|
|
.P
|
|
|
|
You can also think of this as the subject being split up into fragments of
|
|
|
|
valid UTF, delimited internally by invalid code unit sequences. The pattern is
|
|
|
|
matched fragment by fragment. The result of a successful match, however, is
|
|
|
|
given as code unit offsets in the entire subject string in the usual way. There
|
|
|
|
are a few points to consider:
|
|
|
|
.P
|
|
|
|
The internal boundaries are not interpreted as the beginnings or ends of lines
|
|
|
|
and so do not match circumflex or dollar characters in the pattern.
|
|
|
|
.P
|
|
|
|
If \fBpcre2_match()\fP is called with an offset that points to an invalid
|
|
|
|
UTF-sequence, that sequence is skipped, and the match starts at the next valid
|
|
|
|
UTF character, or the end of the subject.
|
|
|
|
.P
|
|
|
|
At internal fragment boundaries, \eb and \eB behave in the same way as at the
|
2019-10-17 18:39:38 +02:00
|
|
|
beginning and end of the subject. For example, a sequence such as \ebWORD\eb
|
2019-05-24 19:15:48 +02:00
|
|
|
would match an instance of WORD that is surrounded by invalid UTF code units.
|
|
|
|
.P
|
|
|
|
Using PCRE2_MATCH_INVALID_UTF, an application can run matches on arbitrary
|
|
|
|
data, knowing that any matched strings that are returned are valid UTF. This
|
|
|
|
can be useful when searching for UTF text in executable or other binary files.
|
|
|
|
.
|
|
|
|
.
|
2014-09-19 09:43:39 +02:00
|
|
|
.SH AUTHOR
|
|
|
|
.rs
|
|
|
|
.sp
|
|
|
|
.nf
|
|
|
|
Philip Hazel
|
|
|
|
University Computing Service
|
2014-11-17 17:59:02 +01:00
|
|
|
Cambridge, England.
|
2014-09-19 09:43:39 +02:00
|
|
|
.fi
|
|
|
|
.
|
|
|
|
.
|
|
|
|
.SH REVISION
|
|
|
|
.rs
|
|
|
|
.sp
|
|
|
|
.nf
|
2019-05-24 19:15:48 +02:00
|
|
|
Last updated: 24 May 2019
|
2019-02-06 19:11:36 +01:00
|
|
|
Copyright (c) 1997-2019 University of Cambridge.
|
2014-09-19 09:43:39 +02:00
|
|
|
.fi
|