This blog post gives an overview of regular expression syntax and features supported by JavaScript. Examples have been tested on Chrome/Chromium console (version 78+) and includes features not available in other browsers and platforms. Assume ASCII character set unless otherwise specified. This post is an excerpt from my JavaScript RegExp book.

Cheatsheet

Note Description
MDN: Regular Expressions MDN documentation for JavaScript regular expressions
/pat/ a RegExp object
const pet = /dog/ save regexp in a variable for reuse, clarity, etc
/pat/.test(s) Check if given pattern is present anywhere in input string
  returns true or false
i flag to ignore case when matching alphabets
g flag to match all occurrences
new RegExp('pat', 'i') construct RegExp from a string
  second argument specifies flags
  use backtick strings with ${} for interpolation
source property to convert RegExp object to string
  helps to insert a RegExp inside another RegExp
flags property to get flags of a RegExp object
s.replace(/pat/, 'repl') method for search and replace
s.search(/pat/) gives starting location of the match or -1
s.split(/pat/) split a string based on regexp
Anchors Description
^ restricts the match to start of string
$ restricts the match to end of string
\n line separator
m flag to match the start/end of line with ^ and $ anchors
\b restricts the match to start/end of words
  word characters: alphabets, digits, underscore
\B matches wherever \b doesn’t match

^, $ and \ are metacharacters in the above table, as these characters have special meaning. Prefix a \ character to remove the special meaning and match such characters literally. For example, \^ will match a ^ character instead of acting as an anchor.

Feature Description
pat1|pat2|pat3 multiple regexp combined as OR conditional
  each alternative can have independent anchors
(pat) group pattern(s), also a capturing group
a(b|c)d same as abd|acd
(?:pat) non-capturing group
(?<name>pat) named capture group
. match any character except \r and \n characters
[] Character class, matches one character among many
Greedy Quantifiers Description
? match 0 or 1 times
* match 0 or more times
+ match 1 or more times
{m,n} match m to n times
{m,} match at least m times
{n} match exactly n times
pat1.*pat2 any number of characters between pat1 and pat2
pat1.*pat2|pat2.*pat1 match both pat1 and pat2 in any order

Greedy here means that the above quantifiers will match as much as possible that’ll also honor the overall regexp. Appending a ? to greedy quantifiers makes them non-greedy, i.e. match as minimally as possible. Quantifiers can be applied to literal characters, groups, backreferences and character classes.

Character class Description
[ae;o] match any of these characters once
[3-7] range of characters from 3 to 7
[^=b2] negated set, match other than = or b or 2
[a-z-] - should be first/last or escaped using \ to match literally
[+^] ^ shouldn’t be first character or escaped using \
[\]\\] ] and \ should be escaped using \
\w similar to [A-Za-z0-9_] for matching word characters
\d similar to [0-9] for matching digit characters
\s similar to [ \t\n\r\f\v] for matching whitespace characters
  use \W, \D, and \S for their opposites respectively
u flag to enable unicode matching
\p{} Unicode character sets
\P{} negated unicode character sets
  see MDN: Unicode property escapes for details
\u{} specify unicode characters using codepoints
Lookarounds Description
lookarounds allows to create custom positive/negative assertions
  zero-width like anchors and not part of matching portions
(?!pat) negative lookahead assertion
(?<!pat) negative lookbehind assertion
(?=pat) positive lookahead assertion
(?<=pat) positive lookbehind assertion
  variable length lookbehind is allowed
(?!pat1)(?=pat2) multiple assertions can be specified next to each other in any order
  as they mark a matching location without consuming characters
((?!pat).)* Negates a regexp pattern
Matched portion Description
m = s.match(/pat/) assuming g flag isn’t used and regexp succeeds,
  returns an array with matched portion and 3 properties
  index property gives the starting location of the match
  input property gives the input string s
  groups property gives dictionary of named capture groups
m[0] for above case, gives entire matched portion
m[N] matched portion of Nth capture group
s.match(/pat/g) returns only the matched portions, no properties
s.matchAll(/pat/g) returns an iterator containing details for
  each matched portion and its properties
Backreference gives matched portion of Nth capture group
  use $1, $2, $3, etc in replacement section
  $& gives entire matched portion
  $` gives string before the matched portion
  $' gives string after the matched portion
  use \1, \2, \3, etc within regexp definition
$$ insert $ literally in replacement section
$0N same as $N, allows to separate backreference and other digits
\N\xhh allows to separate backreference and digits in regexp definition
(?<name>pat) named capture group
  use \k<name> for backreferencing in regexp definition
  use $<name> for backreferencing in replacement section

Examples

  • test method
> let sentence = 'This is a sample string'

> /is/.test(sentence)
< true
> /xyz/.test(sentence)
< false

> if (/ring/.test(sentence)) {
      console.log('mission success')
  }
< mission success
  • new RegExp() constructor
> new RegExp('dog', 'i')
< /dog/i

> new RegExp('123\\tabc')
< /123\tabc/

> let greeting = 'hi'
> new RegExp(`${greeting.toUpperCase()} there`)
< /HI there/
  • string and line anchors
// string anchors
> /^cat/.test('cater')
< true
> ['surrender', 'unicorn', 'newer', 'door'].filter(w => /er$/.test(w))
< ["surrender", "newer"]

// use 'm' flag to change string anchors to line anchors
> /^par$/m.test('spare\npar\nera\ndare')
< true

// escape metacharacters to match them literally
> /b\^2/.test('a^2 + b^2 - C*3')
< true
  • replace method and word boundaries
> let items = 'catapults\nconcatenate\ncat'
> console.log(items.replace(/^/gm, '* '))
< * catapults
  * concatenate
  * cat

> let sample = 'par spar apparent spare part'
// replace 'par' only at the start of word
> sample.replace(/\bpar/g, 'X')
< "X spar apparent spare Xt"
// replace 'par' at the end of word but not whole word 'par'
> sample.replace(/\Bpar\b/g, 'X')
< "par sX apparent spare part"
  • alternations and grouping
// replace either 'cat' at start of string or 'cat' at end of word
> 'catapults concatenate cat scat'.replace(/^cat|cat\b/g, 'X')
< "Xapults concatenate X sX"

// same as: /\bpark\b|\bpart\b/g
> 'park parked part party'.replace(/\bpar(k|t)\b/g, 'X')
< "X parked X party"
  • MDN: Regular Expressions doc provides escapeRegExp function, useful to automatically escape metacharacters.
    • See also XRegExp utility which provides XRegExp.escape and XRegExp.union methods. The union method has additional functionality of allowing a mix of string and RegExp literals and also takes care of renumbering backreferences.
> function escapeRegExp(string) {
    return string.replace(/[.*+?^${}()|[\]\\]/g, '\\$&')
  }

> function unionRegExp(arr) {
    return arr.map(w => escapeRegExp(w)).join('|')
  }

> new RegExp(unionRegExp(['c^t', 'dog$', 'f|x']), 'g')
< /c\^t|dog\$|f\|x/g
  • dot metacharacter and quantifiers
// matches character '2', any character and then character '3'
> '42\t33'.replace(/2.3/, '8')
< "483"
// 's' flag will allow newline character to be matched as well
> 'Hi there\nHave a Nice Day'.replace(/the.*ice/s, 'X')
< "Hi X Day"

// same as: /part|parrot|parent/g
> 'par part parrot parent'.replace(/par(en|ro)?t/g, 'X')
< "par X X X"

> ['abc', 'ac', 'abbc', 'xabbbcz', 'abbbbbc'].filter(w => /ab{1,4}c/.test(w))
< ["abc", "abbc", "xabbbcz"]
  • match method
// entire matched portion
> 'abc ac adc abbbc'.match(/a(.*)d(.*a)/)[0]
< "abc ac adc a"
// matched portion of 2nd capture group
> 'abc ac adc abbbc'.match(/a(.*)d(.*a)/)[2]
< "c a"
// get location of matching portion
> 'cat and dog'.match(/dog/).index
< 8

// get all matching portions with 'g' flag, no properties or group portions
> 'par spar apparent spare part'.match(/\bs?par[et]\b/g)
< ["spare", "part"]

// useful for debugging purposes as well before using 'replace'
> 'that is quite a fabricated tale'.match(/t.*?a/g)
< ["tha", "t is quite a", "ted ta"]
  • matchAll method
// same as: match(/ab*c/g)
> Array.from('abc ac adc abbbc'.matchAll(/ab*c/g), m => m[0])
< ["abc", "ac", "abbbc"]
// get index for each match
> Array.from('abc ac adc abbbc'.matchAll(/ab*c/g), m => m.index)
< [0, 4, 11]

// get only capture group portions as an array for each match
> Array.from('xx:yyy x: x:yy :y'.matchAll(/(x*):(y*)/g), m => m.slice(1))
< (4) [Array(2), Array(2), Array(2), Array(2)]
  0: (2) ["xx", "yyy"]
  1: (2) ["x", ""]
  2: (2) ["x", "yy"]
  3: (2) ["", "y"]
  length: 4
  __proto__: Array(0)
  • function/dictionary in replacement section
> function titleCase(m, g1, g2) {
        return g1.toUpperCase() + g2.toLowerCase()
  }
> 'aBc ac ADC aBbBC'.replace(/(a)(.*?c)/ig, titleCase)
< "Abc Ac Adc Abbbc"

> '1 42 317'.replace(/\d+/g, m => m*2)
< "2 84 634"

> let swap = { 'cat': 'tiger', 'tiger': 'cat' }
> 'cat tiger dog tiger cat'.replace(/cat|tiger/g, k => swap[k])
< "tiger cat dog cat tiger"
  • split method
// split based on one or more digit characters
> 'Sample123string42with777numbers'.split(/\d+/)
< ["Sample", "string", "with", "numbers"]
// use capture group to include the portion that caused the split as well
> 'Sample123string42with777numbers'.split(/(\d+)/)
< ["Sample", "123", "string", "42", "with", "777", "numbers"]

// split based on digit or whitespace characters
> '**1\f2\n3star\t7 77\r**'.split(/[\d\s]+/)
< ["**", "star", "**"]

// use non-capturing group if capturing is not needed
> '123handed42handy777handful500'.split(/hand(?:y|ful)?/)
< ["123", "ed42", "777", "500"]
  • backreferencing with normal/non-capturing/named capture groups
// remove any number of consecutive duplicate words separated by space
> 'aa a a a 42 f_1 f_1 f_13.14'.replace(/\b(\w+)( \1)+\b/g, '$1')
< "aa a 42 f_1 f_13.14"

// add something around the entire matched portion
> '52 apples and 31 mangoes'.replace(/\d+/g, '($&)')
< "(52) apples and (31) mangoes"

// duplicate first field and add it as last field
> 'fork,42,nice,3.14'.replace(/,.+/, '$&,$`')
< "fork,42,nice,3.14,fork"

// use non-capturing groups when backreferencing isn't needed
> '1,2,3,4,5,6,7'.replace(/^((?:[^,]+,){3})([^,]+)/, '$1($2)')
< "1,2,3,(4),5,6,7"

// named capture groups, same as: replace(/(\w+),(\w+)/g, '$2,$1')
> 'good,bad 42,24'.replace(/(?<fw>\w+),(?<sw>\w+)/g, '$<sw>,$<fw>')
< "bad,good 24,42"
  • examples for lookarounds
// change 'foo' only if it is not followed by a digit character
// note that end of string satisfies the given assertion
// 'foofoo' has two matches as the assertion doesn't consume characters
> 'hey food! foo42 foot5 foofoo'.replace(/foo(?!\d)/g, 'baz')
< "hey bazd! foo42 bazt5 bazbaz"

// change whole word only if it is not preceded by : or --
> ':cart apple --rest ;tea'.replace(/(?<!:|--)\b\w+/g, 'X')
< ":cart X --rest ;X"

// extract digits only if it is preceded by - and followed by , or ;
> '42 foo-5, baz3; x83, y-20; f12'.match(/(?<=-)\d+(?=[;,])/g)
< ["5", "20"]

// words containing all vowels in any order
> let words = ['sequoia', 'subtle', 'questionable', 'exhibit', 'equation']
> words.filter(w => /(?=.*a)(?=.*e)(?=.*i)(?=.*o).*u/.test(w))
< ["sequoia", "questionable", "equation"]

// replace only 3rd occurrence of 'cat'
> 'cat scatter cater scat'.replace(/(?<=(cat.*?){2})cat/, 'X')
< "cat scatter Xer scat"

// match if 'do' is not there between 'at' and 'par'
> /at((?!do).)*par/.test('fox,cat,dog,parrot')
< false

Debugging and Visualization tools

As your regexp gets complicated, it can get difficult to debug if you run into issues. Building your regexp step by step from scratch and testing against input strings will go a long way in correcting the problem. To aid in such a process, you could use various online regexp tools.

regex101 is a popular site to test your regexp. You’ll have first choose the flavor as JavaScript. Then you can add your regexp, input strings, choose flags and an optional replacement string. Matching portions will be highlighted and explanation is offered in separate panes. There’s also a quick reference and other features like sharing, code generator, quiz, etc.

regex101 example

Another useful tool is jex: regulex which converts your regexp to a rail road diagram, thus providing a visual aid to understanding the pattern.

regulex example

JavaScript RegExp book

Visit my repo learn_js_regexp for details about the book I wrote on JavaScript regular expressions. The ebook uses plenty of examples to explain the concepts from the basics and includes exercises to test your understanding. The cheatsheet and examples presented in this post are based on contents of this book.

JavaScript cover image