20 Regular Expressions
20.1 Introduction
A regular expression is a domain specific language for matching text. Naively we could write a small program to match text, but this is error-prone, tedious and not very portable or flexible.
Instead we use regular expressions which describe the match as a string which (in a simple case) consists of the character types to match and quantifiers for how many times we want to have the character type matched.
For example normal letters and digits match literally. Something like \w will match word characters, where \s will match whitespace characters (space, tab, newline, etc.). The period (.) will match any character (except newline).
The basic quantifiers are the asterisk (*) to specify that the match should happen zero or more times, plus (+) for one or more times, or a range can be given as {min,max}.
This alone gives us capabilities like finding words (\w+) or finding an image tag with an alt argument (<img.*alt=".*">).
Matching longer text sequences is one thing, but often we are interested in the subset of the match. For example, in the above example we may want to replace the alt argument text. If we enclose part of the regular expression with parentheses, we capture that part in a variable that can be used in the replacement string. The format of the replacement string is described at the end of this section, but to refer to the first capture, we use $1, $2 for the second etc.
So to change the alt argument text we could search for (<img.*alt=").*(">) and replace that with $1Text Intentionally Removed$2.
Note that in the examples above .* is used. The asterisk operator is however greedy, meaning that it will match as many characters as possible (which still allow a match to occur), so often we want to change it to non-greedy by adding ?, making it .*?.
20.1.1 External Resources
- Regular-Expressions.info
- A.M. Kuchling’s Regular Expression HOWTO
- Steve Mansour’s A Tao of Regular Expressions
- Jeffrey Friedl’s Mastering Regular Expressions (book)
20.2 Regular Expressions in TextMate
Here is a list of places where TextMate makes use of regular expressions:
- Filtering which files should be shown in folder references (added to projects) is done by providing regular expressions.
- Find and Find in Project both allow regular expression replacements.
- Folding markers are found via regular expressions.
- Indentation calculations are based on regular expression matches.
- Language grammars are basically a tree (with cycles) that have regular expressions in each node.
- Snippets allow regular expression replacements to be applied to variables and (in realtime) mirrored placeholders.
So needless to say, these play a big role in TextMate. While you can live a happy life without knowing about them, it is strongly recommended that you do pick up a book, tutorial or similar to get better acquainted with these (if you are not already).
In addition to TextMate, many common shell commands support regular expressions (sed, grep, awk, find) and popular scripting languages like Perl and Ruby have regular expressions ingrained deep into the language.
20.3 Syntax (Oniguruma)
TextMate uses the Oniguruma regular expression library by K. Kosako.
The following is taken from http://www.geocities.jp/kosako3/oniguruma/doc/RE.txt.
Oniguruma Regular Expressions Version 3.6.0 2005/02/01
syntax: ONIG_SYNTAX_RUBY (default)
1. Syntax elements
\ escape (enable or disable meta character meaning)
| alternation
(...) group
[...] character class
2. Characters
\t horizontal tab (0x09)
\v vertical tab (0x0B)
\n newline (0x0A)
\r return (0x0D)
\b back space (0x08)
\f form feed (0x0C)
\a bell (0x07)
\e escape (0x1B)
\nnn octal char (encoded byte value)
\xHH hexadecimal char (encoded byte value)
\x{7HHHHHHH} wide hexadecimal char (character code point value)
\cx control char (character code point value)
\C-x control char (character code point value)
\M-x meta (x|0x80) (character code point value)
\M-\C-x meta control char (character code point value)
(* \b is effective in character class [...] only)
3. Character types
. any character (except newline)
\w word character
Not Unicode:
alphanumeric, "_" and multibyte char.
Unicode:
General_Category --
(Letter|Mark|Number|Connector_Punctuation)
\W non word char
\s whitespace char
Not Unicode:
\t, \n, \v, \f, \r, \x20
Unicode:
0009, 000A, 000B, 000C, 000D, 0085(NEL),
General_Category -- Line_Separator
-- Paragraph_Separator
-- Space_Separator
\S non whitespace char
\d decimal digit char
Unicode: General_Category -- Decimal_Number
\D non decimal digit char
\h hexadecimal digit char [0-9a-fA-F]
\H non hexadecimal digit char
4. Quantifier
greedy
? 1 or 0 times
* 0 or more times
+ 1 or more times
{n,m} at least n but not more than m times
{n,} at least n times
{,n} at least 0 but not more than n times ({0,n})
{n} n times
reluctant
?? 1 or 0 times
*? 0 or more times
+? 1 or more times
{n,m}? at least n but not more than m times
{n,}? at least n times
{,n}? at least 0 but not more than n times (== {0,n}?)
possessive (greedy and does not backtrack after repeated)
?+ 1 or 0 times
*+ 0 or more times
++ 1 or more times
({n,m}+, {n,}+, {n}+ are possessive op. in ONIG_SYNTAX_JAVA only)
ex. /a*+/ === /(?>a*)/
5. Anchors
^ beginning of the line
$ end of the line
\b word boundary
\B not word boundary
\A beginning of string
\Z end of string, or before newline at the end
\z end of string
\G matching start position (*)
* Ruby Regexp:
previous end-of-match position
(This specification is not related to this library.)
6. Character class
^... negative class (lowest precedence operator)
x-y range from x to y
[...] set (character class in character class)
..&&.. intersection (low precedence at the next of ^)
ex. [a-w&&[^c-g]z] ==> ([a-w] AND ([^c-g] OR z)) ==> [abh-w]
* If you want to use '[', '-', ']' as a normal character
in a character class, you should escape these characters by '\'.
POSIX bracket ([:xxxxx:], negate [:^xxxxx:])
Not Unicode Case:
alnum alphabet or digit char
alpha alphabet
ascii code value: [0 - 127]
blank \t, \x20
cntrl
digit 0-9
graph include all of multibyte encoded characters
lower
print include all of multibyte encoded characters
punct
space \t, \n, \v, \f, \r, \x20
upper
xdigit 0-9, a-f, A-F
Unicode Case:
alnum Letter | Mark | Decimal_Number
alpha Letter | Mark
ascii 0000 - 007F
blank Space_Separator | 0009
cntrl Control | Format | Unassigned | Private_Use | Surrogate
digit Decimal_Number
graph [[:^space:]] && ^Control && ^Unassigned && ^Surrogate
lower Lowercase_Letter
print [[:graph:]] | [[:space:]]
punct Connector_Punctuation | Dash_Punctuation |
Close_Punctuation | Final_Punctuation | Initial_Punctuation
| Other_Punctuation | Open_Punctuation
space Space_Separator | Line_Separator | Paragraph_Separator |
0009 | 000A | 000B | 000C | 000D | 0085
upper Uppercase_Letter
xdigit 0030 - 0039 | 0041 - 0046 | 0061 - 0066
(0-9, a-f, A-F)
7. Extended groups
(?#...) comment
(?imx-imx) option on/off
i: ignore case
m: multi-line (dot(.) match newline)
x: extended form
(?imx-imx:subexp) option on/off for subexp
(?:subexp) not captured group
(subexp) captured group
(?=subexp) look-ahead
(?!subexp) negative look-ahead
(?<=subexp) look-behind
(?<!subexp) negative look-behind
Subexp of look-behind must be fixed character
length. But different character length is allowed
in top level alternatives only. ex. (?<=a|bc) is
OK. (?<=aaa(?:b|cd)) is not allowed.
In negative-look-behind, captured group is not
allowed, but shy group(?:) is allowed.
(?>subexp) atomic group
do not backtrack in subexp.
(?<name>subexp) define named group
(All characters of the name must be a word
character. And first character must not be a digit
or uppper case)
Not only a name but a number is assigned like a
captured group.
Assigning the same name as two or more subexps is
allowed. In this case, a subexp call can not be
performed although the back reference is possible.
8. Back reference
\n back reference by group number (n >= 1)
\k<name> back reference by group name
In the back reference by the multiplex definition name,
a subexp with a large number is referred to preferentially.
(When not matched, a group of the small number is referred to.)
* Back reference by group number is forbidden if named group is
defined in the pattern and ONIG_OPTION_CAPTURE_GROUP is not setted.
9. Subexp call ("Tanaka Akira special")
\g<name> call by group name
\g<n> call by group number (n >= 1)
* left-most recursive call is not allowed.
ex. (?<name>a|\g<name>b) => error
(?<name>a|b\g<name>c) => OK
* Call by group number is forbidden if named group is defined in the
pattern and ONIG_OPTION_CAPTURE_GROUP is not setted.
* If the option status of called group is different from calling
position then the group is option is effective.
ex. (?-i:\g<name>)(?i:(?<name>a)){0} match to "A"
10. Captured group
Behavior of the no-named group (...) changes with the following
conditions. (But named group is not changed.)
case 1. /.../ (named group is not used, no option)
(...) is treated as a captured group.
case 2. /.../g (named group is not used, 'g' option)
(...) is treated as a no-captured group (?:...).
case 3. /..(?<name>..)../ (named group is used, no option)
(...) is treated as a no-captured group (?:...).
numbered-backref/call is not allowed.
case 4. /..(?<name>..)../G (named group is used, 'G' option)
(...) is treated as a captured group.
numbered-backref/call is allowed.
where
g: ONIG_OPTION_DONT_CAPTURE_GROUP
G: ONIG_OPTION_CAPTURE_GROUP
('g' and 'G' options are argued in ruby-dev ML)
These options are not implemented in Ruby level.
-----------------------------
A-1. Syntax depend options
+ ONIG_SYNTAX_RUBY
(?m): dot(.) match newline
+ ONIG_SYNTAX_PERL and ONIG_SYNTAX_JAVA
(?s): dot(.) match newline
(?m): ^ match after newline, $ match before newline
A-2. Original extensions
+ hexadecimal digit char type \h, \H
+ named group (?<name>...)
+ named backref \k<name>
+ subexp call \g<name>, \g<group-num>
A-3. Lacked features compare with perl 5.8.0
+ [:word:]
+ \N{name}
+ \l,\u,\L,\U, \X, \C
+ (?{code})
+ (??{code})
+ (?(condition)yes-pat|no-pat)
* \Q...\E
This is effective on ONIG_SYNTAX_PERL and ONIG_SYNTAX_JAVA.
* \p{property}, \P{property}
This is effective on ONIG_SYNTAX_PERL and ONIG_SYNTAX_JAVA.
Alnum, Alpha, Blank, Cntrl, Digit, Graph, Lower,
Print, Punct, Space, Upper, XDigit, ASCII are supported.
Prefix 'Is' of property name is allowed in ONIG_SYNTAX_PERL only.
ex. \p{IsXDigit}.
Negation operator of property is supported in ONIG_SYNTAX_PERL only.
\p{^...}, \P{^...}
A-4. Differences with Japanized GNU regex(version 0.12) of Ruby
+ add hexadecimal digit char type (\h, \H)
+ add look-behind
(?<=fixed-char-length-pattern), (?<!fixed-char-length-pattern)
+ add possessive quantifier. ?+, *+, ++
+ add operations in character class. [], &&
('[' must be escaped as an usual char in character class.)
+ add named group and subexp call.
+ octal or hexadecimal number sequence can be treated as
a multibyte code char in character class if multibyte encoding
is specified.
(ex. [\xa1\xa2], [\xa1\xa7-\xa4\xa1])
+ allow the range of single byte char and multibyte char in character
class.
ex. /[a-<<any EUC-JP character>>]/ in EUC-JP encoding.
+ effect range of isolated option is to next ')'.
ex. (?:(?i)a|b) is interpreted as (?:(?i:a|b)), not (?:(?i:a)|b).
+ isolated option is not transparent to previous pattern.
ex. a(?i)* is a syntax error pattern.
+ allowed incompleted left brace as an usual string.
ex. /{/, /({)/, /a{2,3/ etc...
+ negative POSIX bracket [:^xxxx:] is supported.
+ POSIX bracket [:ascii:] is added.
+ repeat of look-ahead is not allowed.
ex. /(?=a)*/, /(?!b){5}/
+ Ignore case option is effective to numbered character.
ex. /\x61/i =~ "A"
+ In the range quantifier, the number of the minimum is omissible.
/a{,n}/ == /a{0,n}/
The simultanious abbreviation of the number of times of the minimum
and the maximum is not allowed. (/a{,}/)
+ /a{n}?/ is not a non-greedy operator.
/a{n}?/ == /(?:a{n})?/
+ Zero-length match in infinite repeat stops the repeat,
then changes of the capture group status are checked as stop
condition.
/(?:()|())*\1\2/ =~ ""
/(?:\1a|())*/ =~ "a"
A-5. Disabled functions by default syntax
+ capture history
(?@...) and (?@<name>...)
ex. /(?@a)*/.match("aaa") ==> [<0-1>, <1-2>, <2-3>]
see sample/listcap.c file.
A-6. Problems
+ Invalid encoding byte sequence is not checked in UTF-8.
* Invalid first byte is treated as a character.
/./u =~ "\xa3"
* Incomplete byte sequence is not checked.
/\w+/ =~ "a\xf3\x8ec"
// END
20.4 Replacement String Syntax (Format Strings)
When you perform a regular expression replace, the replace string is interpreted as a format string which can reference captures, perform case foldings, do conditional insertions (based on capture registers) and support a minimal amount of escape sequences.
20.4.1 Captures
To reference a capture, use $n where n is the capture register number. Using $0 means the entire match.
Example:
Find: <img src="(.*?)">
Replace: <img src="$1" alt="$1">
20.4.2 Case Foldings
It is possible to convert the next character to upper or lowercase by prepending it with \u or \l. This is mainly useful when the next character stems from a capture register. Example:
Find: (<a.*?>)(.*?)(</a>)
Replace: $1\u$2$3
You can also convert a longer sequence to upper or lowercase by using \U or \L and then \E to disable the case folding again. Example:
Find: (<a.*?>)(.*?)(</a>)
Replace: $1\U$2\E$3
20.4.3 Conditional Insertions
There are times where the replacements depends on whether or not something was matched. This can be done using (?«n»:«insertion») to insert «insertion» if capture «n» was matched. You can also use (?«n»:«insertion»:«otherwise») to have «otherwise» inserted when capture «n» was not matched.
To make a capture conditional either place it in an alternation, e.g. foo|(bar)|fud or append a question mark to it: (bar)?. Note that (.*) will result in a match, even when zero characters are matched, so use (.+)? instead.
So for example if we wish to truncate text to eight words and insert ellipsis only if there were more than eight words, we can use:
Find: (\w+(?:\W+\w+){,7})\W*(.+)?
Replace: $1(?2:…)
Here we first match a word (\w+) followed by up to seven words ((?:\W+\w+){,7}) each preceded by non-word characters (spacing). Then optionally put anything following that (separated by non-word characters) into capture register 2 ((.+)?).
The replacement first inserts the (up to) eight words matched ($1) and then only if capture 2 matched something, ellipsis ((?2:…)).
20.4.4 Escape Codes
In addition to the case folding escape codes, you can insert a newline character with \n, a tab character with \t and a dollar sign with \$.