Difference between revisions of "Regular expression"

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=== Character literals ===
 
=== Character literals ===
  
  M<font color="red"><b>a</b></font>ry h<font color="red"><b>a</b></font>d <font color="red"><b>a</b></font> little l<font color="red"><b>a</b></font>mb.
+
  M<font color="red">a</font>ry h<font color="red">a</font>d <font color="red">a</font> little l<font color="red">a</font>mb.
  And everywhere th<font color="red"><b>a</b></font>t M<font color="red"><b>a</b></font>ry went, the l<font color="red"><b>a</b></font>mb w<font color="red"><b>a</b></font>s sure to go.
+
  And everywhere th<font color="red">a</font>t M<font color="red">a</font>ry went, the l<font color="red">a</font>mb w<font color="red">a</font>s sure to go.
  
 
  regex  : <font color="blue">/Mary/</font>
 
  regex  : <font color="blue">/Mary/</font>
  matches: <font color="red"><b>Mary</b></font> had a little lamb. And everywhere that <font color="red"><b>Mary</b></font> went, the lamb was sure to go.
+
  matches: <font color="red">Mary</font> had a little lamb. And everywhere that <font color="red">Mary</font> went, the lamb was sure to go.
  
 
=== "Escaped" characters literals ===
 
=== "Escaped" characters literals ===
  
 
  regex  : <font color="blue">/.*/</font>
 
  regex  : <font color="blue">/.*/</font>
  matches: <font color="red"><b>Special characters must be escaped.*</b></font>
+
  matches: <font color="red">Special characters must be escaped.*</font>
  
 
  regex  : <font color="blue">/\.\*/</font>
 
  regex  : <font color="blue">/\.\*/</font>
  matches: Special characters must be escaped<font color="red"><b>.*</b></font>
+
  matches: Special characters must be escaped<font color="red">.*</font>
  
 
=== Positional special characters ===  
 
=== Positional special characters ===  
  
 
  regex  : <font color="blue">/^Mary/</font>
 
  regex  : <font color="blue">/^Mary/</font>
  matches: <font color="red"><b>Mary</b></font> had a little lamb.
+
  matches: <font color="red">Mary</font> had a little lamb.
 
           And everywhere that Mary
 
           And everywhere that Mary
 
           went, the lamb was sure
 
           went, the lamb was sure
Line 45: Line 45:
 
  regex  : <font color="blue">/Mary$/</font>
 
  regex  : <font color="blue">/Mary$/</font>
 
  matches: Mary had a little lamb.
 
  matches: Mary had a little lamb.
           And everywhere that <font color="red"><b>Mary</b></font>
+
           And everywhere that <font color="red">Mary</font>
 
           went, the lamb was sure
 
           went, the lamb was sure
 
           to go.
 
           to go.
Line 53: Line 53:
 
  <font color="blue">/.a/ </font>
 
  <font color="blue">/.a/ </font>
  
  <font color="red"><b>Ma</b></font>ry <font color="red"><b>ha</b></font>d<font color="red"><b> a</b></font> little <font color="red"><b>la</b></font>mb.
+
  <font color="red">Ma</font>ry <font color="red">ha</font>d <font color="red">a</font> little <font color="red">la</font>mb.
  And everywhere t<font color="red"><b>ha</b></font>t <font color="red"><b>Ma</b></font>ry
+
  And everywhere t<font color="red">ha</font>t <font color="red">Ma</font>ry
  went, the <font color="red"><b>la</b></font>mb <font color="red"><b>wa</b></font>s sure
+
  went, the <font color="red">la</font>mb <font color="red">wa</font>s sure
 
  to go.
 
  to go.
  
Line 62: Line 62:
 
  <font color="blue">/(Mary)( )(had)/ </font>
 
  <font color="blue">/(Mary)( )(had)/ </font>
  
  <font color="red"><b>Mary had</b></font> a little lamb.
+
  <font color="red">Mary had</font> a little lamb.
 
  And everywhere that Mary
 
  And everywhere that Mary
 
  went, the lamb was sure
 
  went, the lamb was sure
Line 71: Line 71:
 
  <font color="blue">/[a-z]a/ </font>
 
  <font color="blue">/[a-z]a/ </font>
  
  Mary <font color="red"><b>ha</b></font>d a little <font color="red"><b>la</b></font>mb.
+
  Mary <font color="red">ha</font>d a little <font color="red">la</font>mb.
  And everywhere t<font color="red"><b>ha</b></font>t Mary
+
  And everywhere t<font color="red">ha</font>t Mary
  went, the <font color="red"><b>la</b></font>mb <font color="red"><b>wa</b></font>s sure
+
  went, the <font color="red">la</font>mb <font color="red">wa</font>s sure
 
  to go.
 
  to go.
  
Line 80: Line 80:
 
  <font color="blue">/[^a-z]a/ </font>
 
  <font color="blue">/[^a-z]a/ </font>
  
  <font color="red"><b>Ma</b></font>ry had<font color="red"><b> a</b></font> little lamb.
+
  <font color="red">Ma</font>ry had <font color="red">a</font> little lamb.
  And everywhere that <font color="red"><b>Ma</b></font>ry
+
  And everywhere that <font color="red">Ma</font>ry
 
  went, the lamb was sure
 
  went, the lamb was sure
 
  to go.
 
  to go.
Line 89: Line 89:
 
  <font color="blue">/cat|dog|bird/</font>
 
  <font color="blue">/cat|dog|bird/</font>
  
  The pet store sold <font color="red"><b>cat</b></font>s, <font color="red"><b>dog</b></font>s, and <font color="red"><b>bird</b></font>s.
+
  The pet store sold <font color="red">cat</font>s, <font color="red">dog</font>s, and <font color="red">bird</font>s.
  
 
  <font color="blue">/=first|second=/</font>
 
  <font color="blue">/=first|second=/</font>
  
  <font color="red"><b>=first</b></font> first= # =second <font color="red"><b>second=</b></font> # <font color="red"><b>=first</b></font>= # =<font color="red"><b>second=</b></font>
+
  <font color="red">=first</font> first= # =second <font color="red">second=</font> # <font color="red">=first</font>= # =<font color="red">second=</font>
  
 
  <font color="blue">/(=)(first)|(second)(=)/</font>
 
  <font color="blue">/(=)(first)|(second)(=)/</font>
  
  <font color="red"><b>=first</b></font> first= # =second <font color="red"><b>second=</b></font> # <font color="red"><b>=first</b></font>= # =<font color="red"><b>second=</b></font>
+
  <font color="red">=first</font> first= # =second <font color="red">second=</font> # <font color="red">=first</font>= # =<font color="red">second=</font>
  
 
  <font color="blue">/=(first|second)=/</font>
 
  <font color="blue">/=(first|second)=/</font>
  
  =first first= # =second second= # <font color="red"><b>=first=</b></font> # <font color="red"><b>=second=</b></font>
+
  =first first= # =second second= # <font color="red">=first=</font> # <font color="red">=second=</font>
  
 
=== The basic abstract quantifier ===
 
=== The basic abstract quantifier ===
Line 107: Line 107:
 
  <font color="blue">/@(=+=)*@/ </font>
 
  <font color="blue">/@(=+=)*@/ </font>
  
Match with zero in the middle: <font color="red"><b>@@</b></font>
+
Match with zero in the middle: <font color="red">@@</font>
 
Subexpresion occurs, but...: @=+=ABC@
 
Subexpresion occurs, but...: @=+=ABC@
Lots of occurrences: <font color="red"><b>@=+==+==+==+==+=@</b></font>
+
Lots of occurrences: <font color="red">@=+==+==+==+==+=@</font>
 
Must repeat entire pattern: @=+==+=+==+=@
 
Must repeat entire pattern: @=+==+=+==+=@
  
Line 118: Line 118:
 
  <font color="blue">/A+B*C?D</font>
 
  <font color="blue">/A+B*C?D</font>
  
  <font color="red"><b>AAAD</b></font>
+
  <font color="red">AAAD</font>
  <font color="red"><b>ABBBBCD</b></font>
+
  <font color="red">ABBBBCD</font>
 
  BBBCD
 
  BBBCD
 
  ABCCD
 
  ABCCD
Line 128: Line 128:
 
  <font color="blue">/a{5} b{,6} c{4,8}/</font>
 
  <font color="blue">/a{5} b{,6} c{4,8}/</font>
  
  <font color="red"><b>aaaaa bbbbb ccccc</b></font>
+
  <font color="red">aaaaa bbbbb ccccc</font>
 
  aaa bbb ccc
 
  aaa bbb ccc
 
  aaaaa bbbbbbbbbbbbbb ccccc
 
  aaaaa bbbbbbbbbbbbbb ccccc
Line 134: Line 134:
 
  <font color="blue">/a+ b{3,} c?/</font>
 
  <font color="blue">/a+ b{3,} c?/</font>
  
  <font color="red"><b>aaaaa bbbbb c</b></font>cccc
+
  <font color="red">aaaaa bbbbb c</font>cccc
  <font color="red"><b>aaa bbb c</b></font>cc
+
  <font color="red">aaa bbb c</font>cc
  <font color="red"><b>aaaaa bbbbbbbbbbbbbb c</b></font>cccc
+
  <font color="red">aaaaa bbbbbbbbbbbbbb c</font>cccc
  
 
  <font color="blue">/a{5} b{6,} c{4,8}/</font>
 
  <font color="blue">/a{5} b{6,} c{4,8}/</font>
Line 142: Line 142:
 
  aaaaa bbbbb ccccc
 
  aaaaa bbbbb ccccc
 
  aaa bbb ccc
 
  aaa bbb ccc
  <font color="red"><b>aaaaa bbbbbbbbbbbbbb ccccc</b></font>
+
  <font color="red">aaaaa bbbbbbbbbbbbbb ccccc</font>
  
 
=== Backreferences ===
 
=== Backreferences ===
Line 150: Line 150:
 
  jkl abc xyz
 
  jkl abc xyz
 
  jkl xyz abc
 
  jkl xyz abc
  jkl <font color="red"><b>abc abc</b></font>
+
  jkl <font color="red">abc abc</font>
  jkl <font color="red"><b>xyz xyz</b></font>
+
  jkl <font color="red">xyz xyz</font>
  
 
  <font color="blue">/(abc|xyz) (abc|xyz)/</font>
 
  <font color="blue">/(abc|xyz) (abc|xyz)/</font>
  
  jkl <font color="red"><b>abc xyz</b></font>
+
  jkl <font color="red">abc xyz</font>
  jkl <font color="red"><b>xyz abc</b></font>
+
  jkl <font color="red">xyz abc</font>
  jkl <font color="red"><b>abc abc</b></font>
+
  jkl <font color="red">abc abc</font>
  jkl <font color="red"><b>xyz xyz</b></font>
+
  jkl <font color="red">xyz xyz</font>
  
 
=== Don't match more than you want to ===
 
=== Don't match more than you want to ===
Line 290: Line 290:
 
  /
 
  /
 
  </font>
 
  </font>
  The URL for my site is: <font color="red"><b><nowiki>http://mysite.com/mydoc.html</nowiki></b></font>. You
+
  The URL for my site is: <font color="red"><nowiki>http://mysite.com/mydoc.html</nowiki></font>. You
  might also enjoy <font color="red"><b><nowiki>ftp://yoursite.com/index.html</nowiki></b></font> for a good
+
  might also enjoy <font color="red"><nowiki>ftp://yoursite.com/index.html</nowiki></font> for a good
 
  place to download files.
 
  place to download files.
  

Revision as of 07:13, 16 August 2006

A regular expression (abbreviated as regexp, regex, or regxp, with plural forms regexps, regexes, or regexen) is a string that describes or matches a set of strings, according to certain syntax rules. Regular expressions are used by many text editors and utilities to search and manipulate bodies of text based on certain patterns. Many programming languages support regular expressions for string manipulation. For example, Perl and Tcl have a powerful regular expression engine built directly into their syntax. The set of utilities (including the editor sed and the filter grep) provided by Unix distributions were the first to popularize the concept of regular expressions.

Examples

GNU/POSIX extensions to regular expressions

      [[:alnum:]]  - [A-Za-z0-9]     Alphanumeric characters
      [[:alpha:]]  - [A-Za-z]        Alphabetic characters
      [[:blank:]]  - [ \x09]         Space or tab characters only
      [[:cntrl:]]  - [\x00-\x19\x7F] Control characters
      [[:digit:]]  - [0-9]           Numeric characters
      [[:graph:]]  - [!-~]           Printable and visible characters
      [[:lower:]]  - [a-z]           Lower-case alphabetic characters
      [[:print:]]  - [ -~]           Printable (non-Control) characters
      [[:punct:]]  - [!-/:-@[-`{-~]  Punctuation characters
      [[:space:]]  - [ \t\v\f]       All whitespace chars
      [[:upper:]]  - [A-Z]           Upper-case alphabetic characters
      [[:xdigit:]] - [0-9a-fA-F]     Hexadecimal digit characters

Character literals

Mary had a little lamb.
And everywhere that Mary went, the lamb was sure to go.
regex  : /Mary/
matches: Mary had a little lamb. And everywhere that Mary went, the lamb was sure to go.

"Escaped" characters literals

regex  : /.*/
matches: Special characters must be escaped.*
regex  : /\.\*/
matches: Special characters must be escaped.*

Positional special characters

regex  : /^Mary/
matches: Mary had a little lamb.
         And everywhere that Mary
         went, the lamb was sure
         to go.
regex  : /Mary$/
matches: Mary had a little lamb.
         And everywhere that Mary
         went, the lamb was sure
         to go.

The "wildcard" character

/.a/ 
Mary had a little lamb.
And everywhere that Mary
went, the lamb was sure
to go.

Grouping regular expressions

/(Mary)( )(had)/ 
Mary had a little lamb.
And everywhere that Mary
went, the lamb was sure
to go.

Character classes

/[a-z]a/ 
Mary had a little lamb.
And everywhere that Mary
went, the lamb was sure
to go.

Complement operator

/[^a-z]a/ 
Mary had a little lamb.
And everywhere that Mary
went, the lamb was sure
to go.

Alternation of patterns

/cat|dog|bird/
The pet store sold cats, dogs, and birds.
/=first|second=/
=first first= # =second second= # =first= # =second=
/(=)(first)|(second)(=)/
=first first= # =second second= # =first= # =second=
/=(first|second)=/
=first first= # =second second= # =first= # =second=

The basic abstract quantifier

/@(=+=)*@/ 

Match with zero in the middle: @@ Subexpresion occurs, but...: @=+=ABC@ Lots of occurrences: @=+==+==+==+==+=@ Must repeat entire pattern: @=+==+=+==+=@

Matching Patterns in Text: Intermediate

More abstract quantifiers

/A+B*C?D
AAAD
ABBBBCD
BBBCD
ABCCD
AAABBBC

Numeric quantifiers

/a{5} b{,6} c{4,8}/
aaaaa bbbbb ccccc
aaa bbb ccc
aaaaa bbbbbbbbbbbbbb ccccc
/a+ b{3,} c?/
aaaaa bbbbb ccccc
aaa bbb ccc
aaaaa bbbbbbbbbbbbbb ccccc
/a{5} b{6,} c{4,8}/
aaaaa bbbbb ccccc
aaa bbb ccc
aaaaa bbbbbbbbbbbbbb ccccc

Backreferences

/(abc|xyz) \1/
jkl abc xyz
jkl xyz abc
jkl abc abc
jkl xyz xyz
/(abc|xyz) (abc|xyz)/
jkl abc xyz
jkl xyz abc
jkl abc abc
jkl xyz xyz

Don't match more than you want to

/th.*s/
-- I want to match the words that start
-- with 'th' and end with 's'.
this
thus
thistle
this line matches too much

Tricks for restraining matches

/th[^s]*./
-- I want to match the words that start
-- with 'th' and end with 's'.
this
thus
thistle
this line matches too much

A literal-string modification example

s/cat/dog/g 
< The zoo had wild dogs, bobcats, lions, and other wild cats.
> The zoo had wild dogs, bobdogs, lions, and other wild dogs.

A pattern-match modification example

s/cat|dog/snake/g 
< The zoo had wild dogs, bobcats, lions, and other wild cats.
> The zoo had wild snakes, bobsnakes, lions, and other wild snakes.
s/[a-z]+i[a-z]*/nice/g 
< The zoo had wild dogs, bobcats, lions, and other wild cats.
> The zoo had nice dogs, bobcats, nice, and other nice cats.

Modification using backreferences

sed -r 's/([A-Z])([0-9]{2,4}) /\2:\1 /g' INPUT
INPUT : A37 B4 C107 D54112 E1103 XXX
OUTPUT: 37:A B4 107:C D54112 1103:E XXX

Advanced Regular Expression Extensions

Non-greedy quantifiers

/th.*s/
-- I want to match the words that start
-- with 'th' and end with 's'.
this line matches just right
this # thus # thistle
/th.*?s/
-- I want to match the words that start
-- with 'th' and end with 's'.
this # thus # thistle
this line matches just right
/th.*?s /
-- I want to match the words that start
-- with 'th' and end with 's'. (FINALLY!)
this # thus # thistle
this line matches just right

Pattern-match modifiers

/M.*[ise] /
MAINE # Massachusetts # Colorado #
mississippi # Missouri # Minnesota #
/M.*[ise] /i
MAINE # Massachusetts # Colorado #
mississippi # Missouri # Minnesota #
/M.*[ise] /gis
MAINE # Massachusetts # Colorado #
mississippi # Missouri # Minnesota #

Changing backreference behavior

s/([A-Z])(?:-[a-z]{3}-)([0-9]*)/\1\2/g
< A-xyz-37 # B:abcd:142 # C-wxy-66 # D-qrs-93
> A37 # B:abcd:42 # C66 # D93

Naming backreferences

import re
txt = "A-xyz-37 # B:abcd:142 # C-wxy-66 # D-qrs-93"
print re.sub("(?P<prefix>[A-Z])(-[a-z]{3}-)(?P<id>[0-9]*)",
            "\g<prefix>\g<id>", txt) 
A37 # B:abcd:42 # C66 # D93

Lookahead assertions

s/([A-Z]-)(?=[a-z]{3})([a-z0-9]* )/\2\1/g
< A-xyz37 # B-ab6142 # C-Wxy66 # D-qrs93
> xyz37A- # B-ab6142 # C-Wxy66 # qrs93D-
s/([A-Z]-)(?![a-z]{3})([a-z0-9]* )/\2\1/g
< A-xyz37 # B-ab6142 # C-Wxy66 # D-qrs93
> A-xyz37 # ab6142B- # Wxy66C- # D-qrs93

Making regular expressions more readable


/               # identify URLs within a text file
          [^="] # do not match URLs in IMG tags like:
                # <img src="http://mysite.com/mypic.png">
http|ftp|gopher # make sure we find a resource type
          :\/\/ # ...needs to be followed by colon-slash-slash
      [^ \n\r]+ # some stuff than space, newline, tab is in URL
    (?=[\s\.,]) # assert: followed by whitespace/period/comma
/

The URL for my site is: http://mysite.com/mydoc.html. You
might also enjoy ftp://yoursite.com/index.html for a good
place to download files.

References

  • TCL/TK in a Nutshell (1999), Paul Raines & Jeff Tranter, O'Reilly, Cambridge, MA.
  • Python Pocket Reference (1998), Mark Lutz, O'Reilly, Cambridge, MA.
  • Mastering Regular Expressions (1997), Friedl, Jeffrey E. F., O'Reilly, Cambridge, MA.
  • sed & awk (1997), Dale Dougherty & Arnold Robbins, O'Reilly, Cambridge, MA.
  • A Practical Guide to Linux (1997), Mark G. Sobell, Addison Wesley, Reading, MA.
  • Programming Perl (1996), Larry Wall, Tom Christiansen & Randal L. Schwartz, O'Reilly, Cambridge, MA.

External links