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Boost.Regex

Regular Expression Syntax


This section covers the regular expression syntax used by this library, this is a programmers guide, the actual syntax presented to your program's users will depend upon the flags used during expression compilation.

Literals

All characters are literals except: ".", "|", "*", "?", "+", "(", ")", "{", "}", "[", "]", "^", "$" and "\". These characters are literals when preceded by a "\". A literal is a character that matches itself, or matches the result of traits_type::translate(), where traits_type is the traits template parameter to class basic_regex.

Wildcard

The dot character "." matches any single character except : when match_not_dot_null is passed to the matching algorithms, the dot does not match a null character; when match_not_dot_newline is passed to the matching algorithms, then the dot does not match a newline character.

Repeats

A repeat is an expression that is repeated an arbitrary number of times. An expression followed by "*" can be repeated any number of times including zero. An expression followed by "+" can be repeated any number of times, but at least once, if the expression is compiled with the flag regex_constants::bk_plus_qm then "+" is an ordinary character and "\+" represents a repeat of once or more. An expression followed by "?" may be repeated zero or one times only, if the expression is compiled with the flag regex_constants::bk_plus_qm then "?" is an ordinary character and "\?" represents the repeat zero or once operator. When it is necessary to specify the minimum and maximum number of repeats explicitly, the bounds operator "{}" may be used, thus "a{2}" is the letter "a" repeated exactly twice, "a{2,4}" represents the letter "a" repeated between 2 and 4 times, and "a{2,}" represents the letter "a" repeated at least twice with no upper limit. Note that there must be no white-space inside the {}, and there is no upper limit on the values of the lower and upper bounds. When the expression is compiled with the flag regex_constants::bk_braces then "{" and "}" are ordinary characters and "\{" and "\}" are used to delimit bounds instead. All repeat expressions refer to the shortest possible previous sub-expression: a single character; a character set, or a sub-expression grouped with "()" for example.

Examples:

"ba*" will match all of "b", "ba", "baaa" etc.

"ba+" will match "ba" or "baaaa" for example but not "b".

"ba?" will match "b" or "ba".

"ba{2,4}" will match "baa", "baaa" and "baaaa".

Non-greedy repeats

Whenever the "extended" regular expression syntax is in use (the default) then non-greedy repeats are possible by appending a '?' after the repeat; a non-greedy repeat is one which will match the shortest possible string.

For example to match html tag pairs one could use something like:

"<\s*tagname[^>]*>(.*?)<\s*/tagname\s*>"

In this case $1 will contain the text between the tag pairs, and will be the shortest possible matching string. 

Parenthesis

Parentheses serve two purposes, to group items together into a sub-expression, and to mark what generated the match. For example the expression "(ab)*" would match all of the string "ababab". The matching algorithms regex_match and regex_search each take an instance of match_results that reports what caused the match, on exit from these functions the match_results contains information both on what the whole expression matched and on what each sub-expression matched. In the example above match_results[1] would contain a pair of iterators denoting the final "ab" of the matching string. It is permissible for sub-expressions to match null strings. If a sub-expression takes no part in a match - for example if it is part of an alternative that is not taken - then both of the iterators that are returned for that sub-expression point to the end of the input string, and the matched parameter for that sub-expression is false. Sub-expressions are indexed from left to right starting from 1, sub-expression 0 is the whole expression.

Non-Marking Parenthesis

Sometimes you need to group sub-expressions with parenthesis, but don't want the parenthesis to spit out another marked sub-expression, in this case a non-marking parenthesis (?:expression) can be used. For example the following expression creates no sub-expressions:

"(?:abc)*"

Forward Lookahead Asserts 

There are two forms of these; one for positive forward lookahead asserts, and one for negative lookahead asserts:

"(?=abc)" matches zero characters only if they are followed by the expression "abc".

"(?!abc)" matches zero characters only if they are not followed by the expression "abc".

Independent sub-expressions

"(?>expression)" matches "expression" as an independent atom (the algorithm will not backtrack into it if a failure occurs later in the expression).

Alternatives

Alternatives occur when the expression can match either one sub-expression or another, each alternative is separated by a "|", or a "\|" if the flag regex_constants::bk_vbar is set, or by a newline character if the flag regex_constants::newline_alt is set. Each alternative is the largest possible previous sub-expression; this is the opposite behavior from repetition operators.

Examples:

"a(b|c)" could match "ab" or "ac".

"abc|def" could match "abc" or "def".

Sets

A set is a set of characters that can match any single character that is a member of the set. Sets are delimited by "[" and "]" and can contain literals, character ranges, character classes, collating elements and equivalence classes. Set declarations that start with "^" contain the complement of the elements that follow.

Examples:

Character literals:

"[abc]" will match either of "a", "b", or "c".

"[^abc] will match any character other than "a", "b", or "c".

Character ranges:

"[a-z]" will match any character in the range "a" to "z".

"[^A-Z]" will match any character other than those in the range "A" to "Z".

Note that character ranges are highly locale dependent if the flag regex_constants::collate is set: they match any character that collates between the endpoints of the range, ranges will only behave according to ASCII rules when the default "C" locale is in effect. For example if the library is compiled with the Win32 localization model, then [a-z] will match the ASCII characters a-z, and also 'A', 'B' etc, but not 'Z' which collates just after 'z'. This locale specific behavior is disabled by default (in perl mode), and forces ranges to collate according to ASCII character code.

Character classes are denoted using the syntax "[:classname:]" within a set declaration, for example "[[:space:]]" is the set of all whitespace characters. Character classes are only available if the flag regex_constants::char_classes is set. The available character classes are:
 

  alnum Any alpha numeric character.  
  alpha Any alphabetical character a-z and A-Z. Other characters may also be included depending upon the locale.  
  blank Any blank character, either a space or a tab.  
  cntrl Any control character.  
  digit Any digit 0-9.  
  graph Any graphical character.  
  lower Any lower case character a-z. Other characters may also be included depending upon the locale.  
  print Any printable character.  
  punct Any punctuation character.  
  space Any whitespace character.  
  upper Any upper case character A-Z. Other characters may also be included depending upon the locale.  
  xdigit Any hexadecimal digit character, 0-9, a-f and A-F.  
  word Any word character - all alphanumeric characters plus the underscore.  
  Unicode Any character whose code is greater than 255, this applies to the wide character traits classes only.  

There are some shortcuts that can be used in place of the character classes, provided the flag regex_constants::escape_in_lists is set then you can use:

\w in place of [:word:]

\s in place of [:space:]

\d in place of [:digit:]

\l in place of [:lower:]

\u in place of [:upper:] 

Collating elements take the general form [.tagname.] inside a set declaration, where tagname is either a single character, or a name of a collating element, for example [[.a.]] is equivalent to [a], and [[.comma.]] is equivalent to [,]. The library supports all the standard POSIX collating element names, and in addition the following digraphs: "ae", "ch", "ll", "ss", "nj", "dz", "lj", each in lower, upper and title case variations. Multi-character collating elements can result in the set matching more than one character, for example [[.ae.]] would match two characters, but note that [^[.ae.]] would only match one character. 

Equivalence classes take the generalform[=tagname=] inside a set declaration, where tagname is either a single character, or a name of a collating element, and matches any character that is a member of the same primary equivalence class as the collating element [.tagname.]. An equivalence class is a set of characters that collate the same, a primary equivalence class is a set of characters whose primary sort key are all the same (for example strings are typically collated by character, then by accent, and then by case; the primary sort key then relates to the character, the secondary to the accentation, and the tertiary to the case). If there is no equivalence class corresponding to tagname ,then[=tagname=] is exactly the same as [.tagname.]. Unfortunately there is no locale independent method of obtaining the primary sort key for a character, except under Win32. For other operating systems the library will "guess" the primary sort key from the full sort key (obtained from strxfrm), so equivalence classes are probably best considered broken under any operating system other than Win32. 

To include a literal "-" in a set declaration then: make it the first character after the opening "[" or "[^", the endpoint of a range, a collating element, or if the flag regex_constants::escape_in_lists is set then precede with an escape character as in "[\-]". To include a literal "[" or "]" or "^" in a set then make them the endpoint of a range, a collating element, or precede with an escape character if the flag regex_constants::escape_in_lists is set.

Line anchors

An anchor is something that matches the null string at the start or end of a line: "^" matches the null string at the start of a line, "$" matches the null string at the end of a line.

Back references

A back reference is a reference to a previous sub-expression that has already been matched, the reference is to what the sub-expression matched, not to the expression itself. A back reference consists of the escape character "\" followed by a digit "1" to "9", "\1" refers to the first sub-expression, "\2" to the second etc. For example the expression "(.*)\1" matches any string that is repeated about its mid-point for example "abcabc" or "xyzxyz". A back reference to a sub-expression that did not participate in any match, matches the null string: NB this is different to some other regular expression matchers. Back references are only available if the expression is compiled with the flag regex_constants::bk_refs set.

Characters by code

This is an extension to the algorithm that is not available in other libraries, it consists of the escape character followed by the digit "0" followed by the octal character code. For example "\023" represents the character whose octal code is 23. Where ambiguity could occur use parentheses to break the expression up: "\0103" represents the character whose code is 103, "(\010)3 represents the character 10 followed by "3". To match characters by their hexadecimal code, use \x followed by a string of hexadecimal digits, optionally enclosed inside {}, for example \xf0 or \x{aff}, notice the latter example is a Unicode character.

Word operators

The following operators are provided for compatibility with the GNU regular expression library.

"\w" matches any single character that is a member of the "word" character class, this is identical to the expression "[[:word:]]".

"\W" matches any single character that is not a member of the "word" character class, this is identical to the expression "[^[:word:]]".

"\<" matches the null string at the start of a word.

"\>" matches the null string at the end of the word.

"\b" matches the null string at either the start or the end of a word.

"\B" matches a null string within a word.

The start of the sequence passed to the matching algorithms is considered to be a potential start of a word unless the flag match_not_bow is set. The end of the sequence passed to the matching algorithms is considered to be a potential end of a word unless the flag match_not_eow is set.

Buffer operators

The following operators are provided for compatibility with the GNU regular expression library, and Perl regular expressions:

"\`" matches the start of a buffer.

"\A" matches the start of the buffer.

"\'" matches the end of a buffer.

"\z" matches the end of a buffer.

"\Z" matches the end of a buffer, or possibly one or more new line characters followed by the end of the buffer.

A buffer is considered to consist of the whole sequence passed to the matching algorithms, unless the flags match_not_bob or match_not_eob are set.

Escape operator

The escape character "\" has several meanings.

Inside a set declaration the escape character is a normal character unless the flag regex_constants::escape_in_lists is set in which case whatever follows the escape is a literal character regardless of its normal meaning.

The escape operator may introduce an operator for example: back references, or a word operator.

The escape operator may make the following character normal, for example "\*" represents a literal "*" rather than the repeat operator.

Single character escape sequences

The following escape sequences are aliases for single characters:
 

  Escape sequence Character code Meaning  
  \a 0x07 Bell character.  
  \f 0x0C Form feed.  
  \n 0x0A Newline character.  
  \r 0x0D Carriage return.  
  \t 0x09 Tab character.  
  \v 0x0B Vertical tab.  
  \e 0x1B ASCII Escape character.  
  \0dd 0dd An octal character code, where dd is one or more octal digits.  
  \xXX 0xXX A hexadecimal character code, where XX is one or more hexadecimal digits.  
  \x{XX} 0xXX A hexadecimal character code, where XX is one or more hexadecimal digits, optionally a Unicode character.  
  \cZ z-@ An ASCII escape sequence control-Z, where Z is any ASCII character greater than or equal to the character code for '@'.  

Miscellaneous escape sequences:

The following are provided mostly for perl compatibility, but note that there are some differences in the meanings of \l \L \u and \U:
 

  \w Equivalent to [[:word:]].  
  \W Equivalent to [^[:word:]].  
  \s Equivalent to [[:space:]].  
  \S Equivalent to [^[:space:]].  
  \d Equivalent to [[:digit:]].  
  \D Equivalent to [^[:digit:]].  
  \l Equivalent to [[:lower:]].  
  \L Equivalent to [^[:lower:]].  
  \u Equivalent to [[:upper:]].  
  \U Equivalent to [^[:upper:]].  
  \C Any single character, equivalent to '.'.  
  \X Match any Unicode combining character sequence, for example "a\x 0301" (a letter a with an acute).  
  \Q The begin quote operator, everything that follows is treated as a literal character until a \E end quote operator is found.  
  \E The end quote operator, terminates a sequence begun with \Q.  

What gets matched?

When the expression is compiled as a Perl-compatible regex then the matching algorithms will perform a depth first search on the state machine and report the first match found.

When the expression is compiled as a POSIX-compatible regex then the matching algorithms will match the first possible matching string, if more than one string starting at a given location can match then it matches the longest possible string, unless the flag match_any is set, in which case the first match encountered is returned. Use of the match_any option can reduce the time taken to find the match - but is only useful if the user is less concerned about what matched - for example it would not be suitable for search and replace operations. In cases where their are multiple possible matches all starting at the same location, and all of the same length, then the match chosen is the one with the longest first sub-expression, if that is the same for two or more matches, then the second sub-expression will be examined and so on.

The following table examples illustrate the main differences between Perl and POSIX regular expression matching rules:

Expression

Text

POSIX leftmost longest match

ECMAScript depth first search match

a|ab

xaby

"ab"

"a"

.*([[:alnum:]]+).*

" abc def xyz "

$0 = " abc def xyz "
$1 = "abc"

$0 = " abc def xyz "
$1 = "z"

.*(a|xayy)

zzxayyzz

"zzxayy"

"zzxa"

These differences between Perl matching rules, and POSIX matching rules, mean that these two regular expression syntaxes differ not only in the features offered, but also in the form that the state machine takes and/or the algorithms used to traverse the state machine.


Revised 24 Oct 2003

© Copyright John Maddock 1998- 2003

Use, modification and distribution are subject to the Boost Software License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)