Advanced Regex With Modern Javascript Complete Guide

zidniryi

zidniryi

Posted on February 16, 2020

Advanced Regex With Modern Javascript Complete  Guide

What is Regex?

Usually called with Regular Expression , Regexp, or Regex. Regex is a string of text that allows you to create patterns that help match, locate, and manage text.

Regular expressions are a generalized way to match patterns with sequences of characters. It is used in every programming language like C++, Java, Python, Javascript, etc.

Why do we need to use Regex, ok before Regex is very applicable in Front End and Back End.

Regex is useful for filtering text, this is very useful because by using Regex we can choose what characters can enter our server and with regex, we can also filter out a file extension and many more. Ok for more convenience let's do it in this tutorial.

Ok in the introduction in this tutorial we will implement regex using modern javascript using ES6 +.

Ok Before starting this tutorial you can invite your pet like your cat or dog. To walk on your keyboard. LOL.

1. Regex For Number


const regNumber = /^\d*(\.\d+)?$/
const result = '123'.match(regNumber)       // true
if (result) {
    console.log('Match')
} else {
    console.log('Not Match')
}


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2. Regex For Match Lowercase


const regexStringSensitive = /[a-z]/g
const result = 'HELLO'.match(regexStringSensitive)
if (result) {
    console.log('True')
} else {
    console.log('False')
}

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3. Regex For Match Email


const regexEmail = /^(([^<>()\[\]\\.,;:\s@"]+(\.[^<>()\[\]\\.,;:\s@"]+)*)|(".+"))@((\[[0-9]{1,3}\.[0-9]{1,3}\.[0-9]{1,3}\.[0-9]{1,3}\])|(([a-zA-Z\-0-9]+\.)+[a-zA-Z]{2,}))$/
const result = 'helo@gmail.com'.match(regexEmail)
if (result) {
    console.log('Email is Match')
} else {
    console.log('Not Match')
}

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4. Regex For Match Some String


const regexMatchString = /(abc|def)[0-9]{8,11}/
const result = 'abc234832748374asdf7943278934haskhjd'.match(regexMatchString)  //if match abc234832748374 it will true
if (result) {
    console.log('Match')
} else {
    console.log('Not Match')
}

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5. Regex For Match Multi-Word


const regexMatchLove = /\LOVE|\bLie/
const result = 'I LOVE YOU AND I NOT LIE'.match(regexMatchLove)  // Match with word LOVE and LIE
if (result) {
    console.log('Match Word')
} else {
    console.log('Not Match')
}

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6. Regex For Match File Extensions


const regexFileName = /\.(gif|jpg|jpeg|tiff|png)$/i
const result = 'helo.jpg'.match(regexFileName)  // match with filename gif|jpg|jpeg|tiff|png
if (result) {
    console.log('Match File')
} else {
    console.log('Not Match')
}

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7. Regex Min Max


const regexMinMax = /^.{8,20}$/
const result = 'helo.jpg 123'.match(regexMinMax)   //min 8 max 20
if (result) {
    console.log('Recomended Password')
} else {
    console.log('Not Recomended Password')
}

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8. Regex For Special Character


const regexSpecialCharacter = /[\!\@\#\$\%\^\&\*\)\(\+\=\.\<\>\{\}\[\]\:\;\'\"\|\~\`\_\-]/g
const result = '*( Helo {k. ='.match(regexSpecialCharacter)
if (result) {
    console.log('Contain Special Character')
} else {
    console.log('Not Contain Special Character')
}

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Reference for Regex

Any character except [\^$.|?*+()    Literal character
\ followed by any of [\^$.|?*+(){}  Backslash escapes a metacharacter
.   Any character
|   Alternation
\|  Alternation
?   Greedy quantifier
\?  Greedy quantifier
??  Lazy quantifier
?+  Possessive quantifier
*   Greedy quantifier
*?  Lazy quantifier
*+  Possessive quantifier
+   Greedy quantifier
\+  Greedy quantifier
+?  Lazy quantifier
++  Possessive quantifier
{ and } Literal curly braces
{n} where n is an integer >= 1  Fixed quantifier
{n,m} where n >= 0 and m >= n   Greedy quantifier
{n,} where n >= 0   Greedy quantifier
{,m} where m >= 1   Greedy quantifier
\{n\} where n is an integer >= 1    Fixed quantifier
\{n,m\} where n >= 0 and m >= n Greedy quantifier
\{n,\} where n >= 0 Greedy quantifier
\{,m\} where m >= 1 Greedy quantifier
{n,m}? where n >= 0 and m >= n  Lazy quantifier
{n,}? where n >= 0  Lazy quantifier
{,m}? where m >= 1  Lazy quantifier
{n,m}+ where n >= 0 and m >= n  Possessive quantifier
{n,}+ where n >= 0  Possessive quantifier
^   String anchor
^   Line anchor
$   String anchor
$   Line anchor
\a  Character escape
\A  String anchor
\A  Attempt anchor
\b  Word boundary
\b  Backspace character
\B  Word non-boundary
\B  Backslash character
\c  XML shorthand
\ca through \cz Control character escape
\cA through \cZ Control character escape
\C  XML shorthand
\d  Digits shorthand
\D  Non-digits shorthand
\e  Escape character
\f  Form feed character
\g{name}    Named backreference
\g-1, \g-2, etc.    Relative Backreference
\g{-1}, \g{-2}, etc.    Relative Backreference
\g1 through \g99    Backreference
\g{1} through \g{99}    Backreference
\g<name> where “name” is the name of a capturing group  Named subroutine call
\g<name> where “name” is the name of a capturing group  Named backreference
\g'name' where “name” is the name of a capturing group  Named subroutine call
\g'name' where “name” is the name of a capturing group  Named backreference
\g<0>   Recursion
\g'0'   Recursion
\g<1> where 1 is the number of a capturing group    Subroutine call
\g<1> where 1 is the number of a capturing group    Backreference
\g'1' where 1 is the number of a capturing group    Subroutine call
\g'1' where 1 is the number of a capturing group    Backreference
\g<-1> where -1 is a negative integer   Relative subroutine call
\g<-1> where -1 is a negative integer   Relative backreference
\g'-1' where -1 is a negative integer   Relative subroutine call
\g'-1' where -1 is a negative integer   Relative backreference
\g<+1> where +1 is a positive integer   Forward subroutine call
\g'+1' where +1 is a positive integer   Forward subroutine call
\G  Attempt anchor
\G  Match anchor
\h  Hexadecimal digit shorthand
\h  Horizontal whitespace shorthand
\H  Non-hexadecimal digit shorthand
\H  Non-horizontal whitespace shorthand
\i  XML shorthand
\I  XML shorthand
\k<name>    Named backreference
\k'name' through \k'99' Named backreference
\k{name}    Named backreference
\k<1> through \k<99>    Backreference
\k'1' through \k'99'    Backreference
\k<-1>, \k<-2>, etc.    Relative Backreference
\k'-1', \k'-2', etc.    Relative Backreference
\K  Keep text out of the regex match
\l  Lowercase shorthand
\L  Non-lowercase shorthand
\m  Tcl start of word boundary
\M  Tcl end of word boundary
\n  Line feed character
\N  Not a line break
Literal CRLF, LF, or CR line break  Line break
\o{7777} where 7777 is any octal number Octal escape
\pL where L is a Unicode category   Unicode category
\PL where L is a Unicode category   Unicode category
\p{L} where L is a Unicode category Unicode category
\p{IsL} where L is a Unicode category   Unicode category
\p{Category}    Unicode category
\p{IsCategory}  Unicode category
\p{Script}  Unicode script
\p{IsScript}    Unicode script
\p{Block}   Unicode block
\p{InBlock} Unicode block
\p{IsBlock} Unicode block
\P{Property}    Negated Unicode property
\p{^Property}   Negated Unicode property
\P{^Property}   Unicode property
\Q…\E Escape sequence
\r  Carriage return character
\R  Line break
\s  Whitespace shorthand
\S  Non-whitespace shorthand
\t  Tab character
\u  Uppercase shorthand
\uFFFF where FFFF are 4 hexadecimal digits  Unicode code point
\u{FFFF} where FFFF are 1 to 4 hexadecimal digits   Unicode code point
\U  Non-uppercase shorthand
\v  Vertical tab character
\v  Vertical whitespace shorthand
\V  Non-vertical whitespace shorthand
\w  Word character shorthand
\W  Non-word character shorthand
\xFF where FF are 2 hexadecimal digits  Hexadecimal escape
\xFFFF where FFFF are 4 hexadecimal digits  Unicode code point
\x{FFFF} where FFFF are 1 to 4 hexadecimal digits   Unicode code point
\X  Unicode grapheme
\y  Tcl word boundary
\Y  Tcl word non-boundary
\Z  String anchor
\z  String anchor
\0  NULL escape
\1 through \7   Octal escape
\1 through \9   Backreference
\10 through \77 Octal escape
\10 through \99 Backreference
\100 through \377   Octal escape
\01 through \0377   Octal escape
\‘    String anchor
\‘    Attempt anchor
\'  String anchor
\<  GNU word boundary
\>  GNU word boundary
[[:<:]] POSIX word boundary
[[:>:]] POSIX word boundary
(regex) Capturing group
\(regex\)   Capturing group
(?:regex)   Non-capturing group
(?<name>regex)  Named capturing group
(?'name'regex)  Named capturing group
(?#comment) Comment
(?|regex)   Branch reset group
(?>regex)   Atomic group
(?=regex)   Positive lookahead
(?!regex)   Negative lookahead
(?<=regex)  Positive lookbehind
(?<!regex)  Negative lookbehind
(?(?=regex)then|else) where (?=regex) is any valid lookaround and then and else are any valid regexes   Lookaround conditional
(?(regex)then|else) where regex, then, and else are any valid regexes and regex is not the name of a capturing group    Implicit lookahead conditional
(?(name)then|else) where name is the name of a capturing group and then and else are any valid regexes  Named conditional
(?(<name>)then|else) where name is the name of a capturing group and then and else are any valid regexes    Named conditional
(?('name')then|else) where name is the name of a capturing group and then and else are any valid regexes    Named conditional
(?(1)then|else) where 1 is the number of a capturing group and then and else are any valid regexes  Conditional
(?(-1)then|else) where -1 is a negative integer and then and else are any valid regexes Relative conditional
(?(+1)then|else) where +1 is a positive integer and then and else are any valid regexes Forward conditional
(?(+1)then|else) where 1 is the number of a capturing group and then and else are any valid regexes Conditional
(?<capture-subtract>regex) where “capture” and “subtract” are group names and “regex” is any regex  Balancing group
(?'capture-subtract'regex) where “capture” and “subtract” are group names and “regex” is any regex  Balancing group
(?&name) where “name” is the name of a capturing group  Named subroutine call
(?(DEFINE)regex) where “regex” is any regex Subroutine definitions
(?P<name>regex) Named capturing group
(?P=name)   Named backreference
(?P=1) through (?P=99)  Backreference
(?P>name) where “name” is the name of a capturing group Named subroutine call
(?R)    Recursion
(?0)    Recursion
(?1) where 1 is the number of a capturing group Subroutine call
(?-1) where -1 is a negative integer    Relative subroutine call
(?+1) where +1 is a positive integer    Forward subroutine call

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Now that above is the Regular Expression that is most widely used by programmers to filter characters. Please develop it with your needs. It may be useful.

source: www.regular-expressions.info

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zidniryi
zidniryi

Posted on February 16, 2020

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