Awesome
Super Expressive
Super Expressive is a JavaScript library that allows you to build regular expressions in almost natural language - with no extra dependencies, and a lightweight code footprint (less than 4kb with minification + gzip!).
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<details>
<summary>Click to expand</summary>
- SuperExpressive()
- .allowMultipleMatches
- .lineByLine
- .caseInsensitive
- .generateIndices
- .sticky
- .unicode
- .singleLine
- .anyChar
- .whitespaceChar
- .nonWhitespaceChar
- .digit
- .nonDigit
- .word
- .nonWord
- .wordBoundary
- .nonWordBoundary
- .newline
- .carriageReturn
- .tab
- .verticalTab
- .formFeed
- .backspace
- .nullByte
- .anyOf
- .capture
- .namedCapture(name)
- .backreference(index)
- .namedBackreference(index)
- .group
- .end()
- .assertAhead
- .assertNotAhead
- .assertBehind
- .assertNotBehind
- .optional
- .zeroOrMore
- .zeroOrMoreLazy
- .oneOrMore
- .oneOrMoreLazy
- .exactly(n)
- .atLeast(n)
- .atLeastLazy(n)
- .between(x, y)
- .betweenLazy(x, y)
- .startOfInput
- .endOfInput
- .anyOfChars(chars)
- .anythingBut
- .anythingButChars(chars)
- .anythingButString(str)
- .anythingButRange(a, b)
- .string(s)
- .char(c)
- .controlChar(c)
- .hexCode(hex)
- .utf16Code(hex)
- .unicodeCharCode(hex)
- .unicodeProperty(property)
- .notUnicodeProperty(property)
- .range(a, b)
- .subexpression(expr, opts)
- .toRegexString()
- .toRegex()
Why?
Regex is a very powerful tool, but its terse and cryptic vocabulary can make constructing and communicating them with others a challenge. Even developers who understand them well can have trouble reading their own back just a few months later! In addition, they can't be easily created and manipulated in a programmatic way - closing off an entire avenue of dynamic text processing.
That's where Super Expressive comes in. It provides a programmatic and human readable way to create regular expressions. It's API uses the fluent builder pattern, and is completely immutable. It's built to be discoverable and predictable:
- properties and methods describe what they do in plain English
- order matters! quantifiers are specified before the thing they change, just like in English (e.g.
SuperExpressive().exactly(5).digit
) - if you make a mistake, you'll know how to fix it. SuperExpressive will guide you towards a fix if your expression is invalid
- subexpressions can be used to create meaningful, reusable components
- includes an
index.d.ts
file for full TypeScript support
SuperExpressive turns those complex and unwieldy regexes that appear in code reviews into something that can be read, understood, and properly reviewed by your peers - and maintained by anyone!
Installation and Usage
npm i super-expressive
const SuperExpressive = require('super-expressive');
// Or as an ES6 module
import SuperExpressive from 'super-expressive';
Example
The following example recognises and captures the value of a 16-bit hexadecimal number like 0xC0D3
.
const SuperExpressive = require('super-expressive');
const myRegex = SuperExpressive()
.startOfInput
.optional.string('0x')
.capture
.exactly(4).anyOf
.range('A', 'F')
.range('a', 'f')
.range('0', '9')
.end()
.end()
.endOfInput
.toRegex();
// Produces the following regular expression:
/^(?:0x)?([A-Fa-f0-9]{4})$/
Playground
You can experiment with SuperExpressive
in the Super Expressive Playground by @nartc. This is a great way to build a regex description, and test it against various inputs.
Ports
Super Expressive has been ported to the following languages:
PHP
https://github.com/bassim/super-expressive-php by <a href="https://github.com/bassim/">@bassim</a>
Ruby
https://github.com/hiy/super-expressive-ruby by <a href="https://github.com/hiy">@hiy</a>
Python
https://github.com/stanislav-tsaplev/super_expressive by <a href="https://github.com/stanislav-tsaplev">@stanislav-tsaplev</a>
API
SuperExpressive()
SuperExpressive()
Creates an instance of SuperExpressive
.
.allowMultipleMatches
Uses the g
flag on the regular expression, which indicates that it should match multiple values when run on a string.
Example
SuperExpressive()
.allowMultipleMatches
.string('hello')
.toRegex();
// ->
/hello/g
.lineByLine
Uses the m
flag on the regular expression, which indicates that it should treat the .startOfInput and .endOfInput markers as the start and end of lines.
Example
SuperExpressive()
.lineByLine
.string('^hello$')
.toRegex();
// ->
/\^hello\$/m
.caseInsensitive
Uses the i
flag on the regular expression, which indicates that it should treat ignore the uppercase/lowercase distinction when matching.
Example
SuperExpressive()
.caseInsensitive
.string('HELLO')
.toRegex();
// ->
/HELLO/i
.generateIndices
Uses the d
flag on the regular expression, which indicates that it should generate indices for the start and end of each capture group.
Example
SuperExpressive()
.generateIndices
.string('hello')
.toRegex();
// ->
/hello/d
.sticky
Uses the y
flag on the regular expression, which indicates that it should create a stateful regular expression that can be resumed from the last match.
Example
SuperExpressive()
.sticky
.string('hello')
.toRegex();
// ->
/hello/y
.unicode
Uses the u
flag on the regular expression, which indicates that it should use full unicode matching.
Example
SuperExpressive()
.unicode
.string('héllo')
.toRegex();
// ->
/héllo/u
.singleLine
Uses the s
flag on the regular expression, which indicates that the input should be treated as a single line, where the .startOfInput and .endOfInput markers explicitly mark the start and end of input, and .anyChar also matches newlines.
Example
SuperExpressive()
.singleLine
.string('hello')
.anyChar
.string('world')
.toRegex();
// ->
/hello.world/s
.anyChar
Matches any single character. When combined with .singleLine, it also matches newlines.
Example
SuperExpressive()
.anyChar
.toRegex();
// ->
/./
.whitespaceChar
Matches any whitespace character, including the special whitespace characters: \r\n\t\f\v
.
Example
SuperExpressive()
.whitespaceChar
.toRegex();
// ->
/\s/
.nonWhitespaceChar
Matches any non-whitespace character, excluding also the special whitespace characters: \r\n\t\f\v
.
Example
SuperExpressive()
.nonWhitespaceChar
.toRegex();
// ->
/\S/
.digit
Matches any digit from 0-9
.
Example
SuperExpressive()
.digit
.toRegex();
// ->
/\d/
.nonDigit
Matches any non-digit.
Example
SuperExpressive()
.nonDigit
.toRegex();
// ->
/\D/
.word
Matches any alpha-numeric (a-z, A-Z, 0-9
) characters, as well as _
.
Example
SuperExpressive()
.word
.toRegex();
// ->
/\w/
.nonWord
Matches any non alpha-numeric (a-z, A-Z, 0-9
) characters, excluding _
as well.
Example
SuperExpressive()
.nonWord
.toRegex();
// ->
/\W/
.wordBoundary
Matches (without consuming any characters) immediately between a character matched by .word and a character not matched by .word (in either order).
Example
SuperExpressive()
.digit
.wordBoundary
.toRegex();
// ->
/\d\b/
.nonWordBoundary
Matches (without consuming any characters) at the position between two characters matched by .word.
Example
SuperExpressive()
.digit
.nonWordBoundary
.toRegex();
// ->
/\d\B/
.newline
Matches a \n
character.
Example
SuperExpressive()
.newline
.toRegex();
// ->
/\n/
.carriageReturn
Matches a \r
character.
Example
SuperExpressive()
.carriageReturn
.toRegex();
// ->
/\r/
.tab
Matches a \t
character.
Example
SuperExpressive()
.tab
.toRegex();
// ->
/\t/
.verticalTab
Matches a \v
character.
Example
SuperExpressive()
.verticalTab
.toRegex();
// ->
/\v/
.formFeed
Matches a \f
character.
Example
SuperExpressive()
.formFeed
.toRegex();
// ->
/\f/
.backspace
Matches a \b
character.
Example
SuperExpressive()
.backspace
.toRegex();
// ->
/[\b]/
.nullByte
Matches a \u0000
character (ASCII 0
).
Example
SuperExpressive()
.nullByte
.toRegex();
// ->
/\0/
.anyOf
Matches a choice between specified elements. Needs to be finalised with .end()
.
Example
SuperExpressive()
.anyOf
.range('a', 'f')
.range('0', '9')
.string('XXX')
.end()
.toRegex();
// ->
/(?:XXX|[a-f0-9])/
.capture
Creates a capture group for the proceeding elements. Needs to be finalised with .end()
. Can be later referenced with backreference(index).
Example
SuperExpressive()
.capture
.range('a', 'f')
.range('0', '9')
.string('XXX')
.end()
.toRegex();
// ->
/([a-f][0-9]XXX)/
.namedCapture(name)
Creates a named capture group for the proceeding elements. Needs to be finalised with .end()
. Can be later referenced with namedBackreference(name) or backreference(index).
Example
SuperExpressive()
.namedCapture('interestingStuff')
.range('a', 'f')
.range('0', '9')
.string('XXX')
.end()
.toRegex();
// ->
/(?<interestingStuff>[a-f][0-9]XXX)/
.namedBackreference(name)
Matches exactly what was previously matched by a namedCapture.
Example
SuperExpressive()
.namedCapture('interestingStuff')
.range('a', 'f')
.range('0', '9')
.string('XXX')
.end()
.string('something else')
.namedBackreference('interestingStuff')
.toRegex();
// ->
/(?<interestingStuff>[a-f][0-9]XXX)something else\k<interestingStuff>/
.backreference(index)
Matches exactly what was previously matched by a capture or namedCapture using a positional index. Note regex indexes start at 1, so the first capture group has index 1.
Example
SuperExpressive()
.capture
.range('a', 'f')
.range('0', '9')
.string('XXX')
.end()
.string('something else')
.backreference(1)
.toRegex();
// ->
/([a-f][0-9]XXX)something else\1/
.group
Creates a non-capturing group of the proceeding elements. Needs to be finalised with .end()
.
Example
SuperExpressive()
.optional.group
.range('a', 'f')
.range('0', '9')
.string('XXX')
.end()
.toRegex();
// ->
/(?:[a-f][0-9]XXX)?/
.end()
Signifies the end of a SuperExpressive grouping, such as .anyOf, .group, or .capture.
Example
SuperExpressive()
.capture
.anyOf
.range('a', 'f')
.range('0', '9')
.string('XXX')
.end()
.end()
.toRegex();
// ->
/((?:XXX|[a-f0-9]))/
.assertAhead
Assert that the proceeding elements are found without consuming them. Needs to be finalised with .end()
.
Example
SuperExpressive()
.assertAhead
.range('a', 'f')
.end()
.range('a', 'z')
.toRegex();
// ->
/(?=[a-f])[a-z]/
.assertNotAhead
Assert that the proceeding elements are not found without consuming them. Needs to be finalised with .end()
.
Example
SuperExpressive()
.assertNotAhead
.range('a', 'f')
.end()
.range('g', 'z')
.toRegex();
// ->
/(?![a-f])[g-z]/
.assertBehind
Assert that the elements contained within are found immediately before this point in the string. Needs to be finalised with .end()
.
Example
SuperExpressive()
.assertBehind
.string('hello ')
.end()
.string('world')
.toRegex();
// ->
/(?<=hello )world/
.assertNotBehind
Assert that the elements contained within are not found immediately before this point in the string. Needs to be finalised with .end()
.
Example
SuperExpressive()
.assertNotBehind
.string('hello ')
.end()
.string('world')
.toRegex();
// ->
/(?<!hello )world/
.optional
Assert that the proceeding element may or may not be matched.
Example
SuperExpressive()
.optional.digit
.toRegex();
// ->
/\d?/
.zeroOrMore
Assert that the proceeding element may not be matched, or may be matched multiple times.
Example
SuperExpressive()
.zeroOrMore.digit
.toRegex();
// ->
/\d*/
.zeroOrMoreLazy
Assert that the proceeding element may not be matched, or may be matched multiple times, but as few times as possible.
Example
SuperExpressive()
.zeroOrMoreLazy.digit
.toRegex();
// ->
/\d*?/
.oneOrMore
Assert that the proceeding element may be matched once, or may be matched multiple times.
Example
SuperExpressive()
.oneOrMore.digit
.toRegex();
// ->
/\d+/
.oneOrMoreLazy
Assert that the proceeding element may be matched once, or may be matched multiple times, but as few times as possible.
Example
SuperExpressive()
.oneOrMoreLazy.digit
.toRegex();
// ->
/\d+?/
.exactly(n)
Assert that the proceeding element will be matched exactly n
times.
Example
SuperExpressive()
.exactly(5).digit
.toRegex();
// ->
/\d{5}/
.atLeast(n)
Assert that the proceeding element will be matched at least n
times.
Example
SuperExpressive()
.atLeast(5).digit
.toRegex();
// ->
/\d{5,}/
.atLeastLazy(n)
Assert that the proceeding element will be matched at least n
times, but as few times as possible.
Example
SuperExpressive()
.atLeastLazy(5).digit
.toRegex();
// ->
/\d{5,}?/
.between(x, y)
Assert that the proceeding element will be matched somewhere between x
and y
times.
Example
SuperExpressive()
.between(3, 5).digit
.toRegex();
// ->
/\d{3,5}/
.betweenLazy(x, y)
Assert that the proceeding element will be matched somewhere between x
and y
times, but as few times as possible.
Example
SuperExpressive()
.betweenLazy(3, 5).digit
.toRegex();
// ->
/\d{3,5}?/
.startOfInput
Assert the start of input, or the start of a line when .lineByLine is used.
Example
SuperExpressive()
.startOfInput
.string('hello')
.toRegex();
// ->
/^hello/
.endOfInput
Assert the end of input, or the end of a line when .lineByLine is used.
Example
SuperExpressive()
.string('hello')
.endOfInput
.toRegex();
// ->
/hello$/
.anyOfChars(chars)
Matches any of the characters in the provided string chars
.
Example
SuperExpressive()
.anyOfChars('aeiou')
.toRegex();
// ->
/[aeiou]/
.anythingBut
Matches any character, except those that match any of the specified elements. Needs to be finalised with .end()
.
Example
SuperExpressive()
.anythingBut
.digit
.range('a','z')
.string('XXX')
.end()
.toRegex();
// ->
/(?:(?!XXX)[^\da-z])/
.anythingButChars(chars)
Matches any character, except any of those in the provided string chars
.
Example
SuperExpressive()
.anythingButChars('aeiou')
.toRegex();
// ->
/[^aeiou]/
.anythingButString(str)
Matches any string the same length as str
, except the characters sequentially defined in str
.
Example
SuperExpressive()
.anythingButString('aeiou')
.toRegex();
// ->
/(?:[^a][^e][^i][^o][^u])/
.anythingButRange(a, b)
Matches any character, except those that would be captured by the .range specified by a
and b
.
Example
SuperExpressive()
.anythingButRange(0, 9)
.toRegex();
// ->
/[^0-9]/
.string(s)
Matches the exact string s
.
Example
SuperExpressive()
.string('hello')
.toRegex();
// ->
/hello/
.char(c)
Matches the exact character c
.
Example
SuperExpressive()
.char('x')
.toRegex();
// ->
/x/
.controlChar(c)
Matches a control character using carat notation (Ctrl^c
) where c
is a single latin letter from A-Z.
Example
SuperExpressive()
.controlChar('J')
.toRegex();
// ->
/\cJ/
.hexCode(hex)
Matches a character with the code hex
, where hex
is a 2 dogit hexadecimal string.
Example
SuperExpressive()
.hexCode('2A')
.toRegex();
// ->
/\x2A/
.utf16Code(hex)
Matches a UTF-16 code unit with the code hex
, where hex
is a 4 digit hexadecimal string.
Example
SuperExpressive()
.utf16Code('002A')
.toRegex();
// ->
/\u002A/
.unicodeCharCode(hex)
Matches a Unicode character code with the value hex
, where hex
is a 4 or 5 digit hexadecimal string.
Implicitly enables the u
flag on the regular expression.
Example
SuperExpressive()
.unicodeCharCode('0002A')
.toRegex();
// ->
/\u{0002A}/u
.unicodeProperty(property)
Matches a Unicode character with the given Unicode property.
See the MDN Docs for valid properties.
Implicitly enables the u
flag on the regular expression.
Example
SuperExpressive()
.unicodeProperty('Script=Latin')
.toRegex();
// ->
/\p{Script=Latin}/u
.notUnicodeProperty(property)
Matches a Unicode character without the given Unicode property.
See the MDN Docs for valid properties.
Implicitly enables the u
flag on the regular expression.
Example
SuperExpressive()
.notUnicodeProperty('Script=Latin')
.toRegex();
// ->
/\P{Script=Latin}/u
.range(a, b)
Matches any character that falls between a
and b
. Ordering is defined by a characters ASCII or unicode value.
The u
flag is automatically enabled if either a
or b
are unicode characters larger than 2 bytes.
Example
SuperExpressive()
.range('a', 'z')
.range('\u{1F600}', '\u{1F606}')
.toRegex();
// ->
/[a-z][😀-😆]/u
.subexpression(expr, opts?)
- opts.namespace: A string namespace to use on all named capture groups in the subexpression, to avoid naming collisions with your own named groups (default =
''
) - opts.ignoreFlags: If set to true, any flags this subexpression specifies should be disregarded (default =
true
) - opts.ignoreStartAndEnd: If set to true, any startOfInput/endOfInput asserted in this subexpression specifies should be disregarded (default =
true
)
Matches another SuperExpressive instance inline. Can be used to create libraries, or to modularise you code. By default, flags and start/end of input markers are ignored, but can be explcitly turned on in the options object.
Example
// A reusable SuperExpressive...
const fiveDigits = SuperExpressive().exactly(5).digit;
SuperExpressive()
.oneOrMore.range('a', 'z')
.atLeast(3).anyChar
.subexpression(fiveDigits)
.toRegex();
// ->
/[a-z]+.{3,}\d{5}/
.toRegexString()
Outputs a string representation of the regular expression that this SuperExpression models.
Example
SuperExpressive()
.allowMultipleMatches
.lineByLine
.startOfInput
.optional.string('0x')
.capture
.exactly(4).anyOf
.range('A', 'F')
.range('a', 'f')
.range('0', '9')
.end()
.end()
.endOfInput
.toRegexString();
// ->
"/^(?:0x)?([A-Fa-f0-9]{4})$/gm"
.toRegex()
Outputs the regular expression that this SuperExpression models.
Example
SuperExpressive()
.allowMultipleMatches
.lineByLine
.startOfInput
.optional.string('0x')
.capture
.exactly(4).anyOf
.range('A', 'F')
.range('a', 'f')
.range('0', '9')
.end()
.end()
.endOfInput
.toRegex();
// ->
/^(?:0x)?([A-Fa-f0-9]{4})$/gm