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Regular expressions

A regular expression (regex for short) allow developers to match strings against a pattern, extract submatch information, or simply test if the string conforms to that pattern. Regular expressions are used in many programming languages, and JavaScript's syntax is inspired by Perl.

You are encouraged to read the regular expressions guide to get an overview of the available regex syntaxes and how they work.

Description

Regular expressions are a important concept in formal language theory. They are a way to describe a possibly infinite set of character strings (called a language). A regular expression, at its core, needs the following features:

  • A set of characters that can be used in the language, called the alphabet.
  • Concatenation: ab means "the character a followed by the character b".
  • Union: a|b means "either a or b".
  • Kleene star: a* means "zero or more a characters".

Assuming a finite alphabet (such as the 26 letters of the English alphabet, or the entire Unicode character set), all regular languages can be generated by the features above. Of course, many patterns are very tedious to express this way (such as "10 digits" or "a character that's not a space"), so JavaScript regular expressions include many shorthands, introduced below.

Note: JavaScript regular expressions are in fact not regular, due to the existence of backreferences (regular expressions must have finite states). However, they are still a very useful feature.

Creating regular expressions

A regular expression is typically created as a literal by enclosing a pattern in forward slashes (/):

js
const regex1 = /ab+c/g;

Regular expressions can also be created with the RegExp() constructor:

js
const regex2 = new RegExp("ab+c", "g");

They have no runtime differences, although they may have implications on performance, static analyzability, and authoring ergonomic issues with escaping characters. For more information, see the RegExp reference.

Regex flags

Flags are special parameters that can change the way a regular expression is interpreted or the way it interacts with the input text. Each flag corresponds to one accessor property on the RegExp object.

Flag Description Corresponding property
d Generate indices for substring matches. hasIndices
g Global search. global
i Case-insensitive search. ignoreCase
m Allows ^ and $ to match next to newline characters. multiline
s Allows . to match newline characters. dotAll
u "Unicode"; treat a pattern as a sequence of Unicode code points. unicode
v An upgrade to the u mode with more Unicode features. unicodeSets
y Perform a "sticky" search that matches starting at the current position in the target string. sticky

The sections below list all available regex syntaxes, grouped by their syntactic nature.

Assertions

Assertions are constructs that test whether the string meets a certain condition at the specified position, but not consume characters. Assertions cannot be quantified.

Input boundary assertion: ^, $

Asserts that the current position is the start or end of input, or start or end of a line if the m flag is set.

Lookahead assertion: (?=...), (?!...)

Asserts that the current position is followed or not followed by a certain pattern.

Lookbehind assertion: (?<=...), (?<!...)

Asserts that the current position is preceded or not preceded by a certain pattern.

Word boundary assertion: \b, \B

Asserts that the current position is a word boundary.

Atoms

Atoms are the most basic units of a regular expression. Each atom consumes one or more characters in the string, and either fails the match or allows the pattern to continue matching with the next atom.

Backreference: \1, \2

Matches a previously matched subpattern captured with a capturing group.

Capturing group: (...)

Matches a subpattern and remembers information about the match.

Character class: [...], [^...]

Matches any character in or not in a set of characters. When the v flag is enabled, it can also be used to match finite-length strings.

Character class escape: \d, \D, \w, \W, \s, \S

Matches any character in or not in a predefined set of characters.

Character escape: \n, \u{...}

Matches a character that may not be able to be conveniently represented in its literal form.

Literal character: a, b

Matches a specific character.

Named backreference: \k<name>

Matches a previously matched subpattern captured with a named capturing group.

Named capturing group: (?<name>...)

Matches a subpattern and remembers information about the match. The group can later be identified by a custom name instead of by its index in the pattern.

Non-capturing group: (?:...)

Matches a subpattern without remembering information about the match.

Unicode character class escape: \p{...}, \P{...}

Matches a set of characters specified by a Unicode property. When the v flag is enabled, it can also be used to match finite-length strings.

Wildcard: .

Matches any character except line terminators, unless the s flag is set.

Other features

These features do not specify any pattern themselves, but are used to compose patterns.

Disjunction: |

Matches any of a set of alternatives separated by the | character.

Quantifier: *, +, ?, {n}, {n,}, {n,m}

Matches an atom a certain number of times.

Escape sequences

Escape sequences in regexes refer to any kind of syntax formed by \ followed by one or more characters. They may serve very different purposes depending on what follow \. Below is a list of all valid "escape sequences":

Escape sequence Followed by Meaning
\B None Non-word-boundary assertion
\D None Character class escape representing non-digit characters
\P {, a Unicode property and/or value, then } Unicode character class escape representing characters without the specified Unicode property
\S None Character class escape representing non-white-space characters
\W None Character class escape representing non-word characters
\b None Word boundary assertion; inside character classes, represents U+0008 (BACKSPACE)
\c A letter from A to Z or a to z A character escape representing the control character with value equal to the letter's character value modulo 32
\d None Character class escape representing digit characters (0 to 9)
\f None Character escape representing U+000C (FORM FEED)
\k <, an identifier, then > A named backreference
\n None Character escape representing U+000A (LINE FEED)
\p {, a Unicode property and/or value, then } Unicode character class escape representing characters with the specified Unicode property
\q {, a string, then a } Only valid inside v-mode character classes; represents the string to be matched literally
\r None Character escape representing U+000D (CARRIAGE RETURN)
\s None Character class escape representing whitespace characters
\t None Character escape representing U+0009 (CHARACTER TABULATION)
\u 4 hexadecimal digits; or {, 1 to 6 hexadecimal digits, then } Character escape representing the character with the given code point
\v None Character escape representing U+000B (LINE TABULATION)
\w None Character class escape representing word characters (A to Z, a to z, 0 to 9, _)
\x 2 hexadecimal digits Character escape representing the character with the given value
\0 None Character escape representing U+0000 (NULL)

\ followed by any other digit character becomes a legacy octal escape sequence, which is forbidden in Unicode-aware mode.

In addition, \ can be followed by some non-letter-or-digit characters, in which case the escape sequence is always a character escape representing the escaped character itself:

  • \$, \(, \), \*, \+, \., \/, \?, \[, \\, \], \^, {, \|, }: valid everywhere
  • \-: only valid inside character classes
  • \!, \#, \%, \&, \,, \:, \;, \<, \=, \>, \@, \`, \~: only valid inside v-mode character classes

The other ASCII characters, namely space character, ", ', _, and any letter character not mentioned above, are not valid escape sequences. In Unicode-unaware mode, escape sequences that are not one of the above become identity escapes: they represent the character that follows the backslash. For example, \a represents the character a. This behavior limits the ability to introduce new escape sequences without causing backward compatibility issues, and is therefore forbidden in Unicode-aware mode.

Specifications

Browser compatibility

Desktop Mobile Server
Chrome Edge Firefox Opera Safari Chrome Android Firefox for Android Opera Android Safari on IOS Samsung Internet WebView Android Deno Node.js
backreference 1 12 1 5 1 18 4 10.1 1 1.0 4.4 1.0 0.10.0
capturing_group 1 12 1 5 1 18 4 10.1 1 1.0 4.4 1.0 0.10.0
character_class 1 12 1 5 1 18 4 10.1 1 1.0 4.4 1.0 0.10.0
character_class_escape 1 12 1 5 1 18 4 10.1 1 1.0 4.4 1.0 0.10.0
character_escape 1 12 1 5 1 18 4 10.1 1 1.0 4.4 1.0 0.10.0
disjunction 1 12 1 5 1 18 4 10.1 1 1.0 4.4 1.0 0.10.0
input_boundary_assertion 1 12 1 5 1 18 4 10.1 1 1.0 4.4 1.0 0.10.0
literal_character 1 12 1 5 1 18 4 10.1 1 1.0 4.4 1.0 0.10.0
lookahead_assertion 1 12 1 5 1 18 4 10.1 1 1.0 4.4 1.0 0.10.0
lookbehind_assertion 62 79 78 49 16.4 62 79 46 16.4 8.0 62 1.0 8.10.0
named_backreference 64 79 78 51 11.1 64 79 47 11.3 9.0 64 1.0 10.0.0
named_capturing_group 64 79 78 51 11.1 64 79 47 11.3 9.0 64 1.0 10.0.0
non_capturing_group 1 12 1 5 1 18 4 10.1 1 1.0 4.4 1.0 0.10.0
quantifier 1 12 1 5 1 18 4 10.1 1 1.0 4.4 1.0 0.10.0
unicode_character_class_escape 64 79 78 51 11.1 64 79 47 11.3 9.0 64 1.0 10.0.0
wildcard 1 12 1 5 1 18 4 10.1 1 1.0 4.4 1.0 0.10.0
word_boundary_assertion 1 12 1 5 1 18 4 10.1 1 1.0 4.4 1.0 0.10.0

See also

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Licensed under the Creative Commons Attribution-ShareAlike License v2.5 or later.
https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Regular_expressions