JavaScript uses Unicode encoding for strings. Most characters are encoded with 2 bytes, but that allows to represent at most 65536 characters.
That range is not big enough to encode all possible characters, that’s why some rare characters are encoded with 4 bytes, for instance like 𝒳
(mathematical X) or 😄
(a smile), some hieroglyphs and so on.
Here are the Unicode values of some characters:
Character | Unicode | Bytes count in Unicode |
---|---|---|
a | 0x0061 |
2 |
≈ | 0x2248 |
2 |
𝒳 | 0x1d4b3 |
4 |
𝒴 | 0x1d4b4 |
4 |
😄 | 0x1f604 |
4 |
So characters like a
and ≈
occupy 2 bytes, while codes for 𝒳
, 𝒴
and 😄
are longer, they have 4 bytes.
Long time ago, when JavaScript language was created, Unicode encoding was simpler: there were no 4-byte characters. So, some language features still handle them incorrectly.
For instance, length
thinks that here are two characters:
alert('😄'.length); // 2
alert('𝒳'.length); // 2
…But we can see that there’s only one, right? The point is that length
treats 4 bytes as two 2-byte characters. That’s incorrect, because they must be considered only together (so-called “surrogate pair”, you can read about them in the article String).
By default, regular expressions also treat 4-byte “long characters” as a pair of 2-byte ones. And, as it happens with strings, that may lead to odd results. We’ll see that a bit later, in the article Sets and ranges [...].
Unlike strings, regular expressions have flag u
that fixes such problems. With such flag, a regexp handles 4-byte characters correctly. And also Unicode property search becomes available, we’ll get to it next.
Unicode properties \p{…}
Every character in Unicode has a lot of properties. They describe what “category” the character belongs to, contain miscellaneous information about it.
For instance, if a character has Letter
property, it means that the character belongs to an alphabet (of any language). And Number
property means that it’s a digit: maybe Arabic or Chinese, and so on.
We can search for characters with a property, written as \p{…}
. To use \p{…}
, a regular expression must have flag u
.
For instance, \p{Letter}
denotes a letter in any language. We can also use \p{L}
, as L
is an alias of Letter
. There are shorter aliases for almost every property.
In the example below three kinds of letters will be found: English, Georgian and Korean.
let str = "A ბ ㄱ";
alert( str.match(/\p{L}/gu) ); // A,ბ,ㄱ
alert( str.match(/\p{L}/g) ); // null (no matches, \p doesn't work without the flag "u")
Here’s the main character categories and their subcategories:
- Letter
L
:- lowercase
Ll
- modifier
Lm
, - titlecase
Lt
, - uppercase
Lu
, - other
Lo
.
- lowercase
- Number
N
:- decimal digit
Nd
, - letter number
Nl
, - other
No
.
- decimal digit
- Punctuation
P
:- connector
Pc
, - dash
Pd
, - initial quote
Pi
, - final quote
Pf
, - open
Ps
, - close
Pe
, - other
Po
.
- connector
- Mark
M
(accents etc):- spacing combining
Mc
, - enclosing
Me
, - non-spacing
Mn
.
- spacing combining
- Symbol
S
:- currency
Sc
, - modifier
Sk
, - math
Sm
, - other
So
.
- currency
- Separator
Z
:- line
Zl
, - paragraph
Zp
, - space
Zs
.
- line
- Other
C
:- control
Cc
, - format
Cf
, - not assigned
Cn
, - private use
Co
, - surrogate
Cs
.
- control
So, e.g. if we need letters in lower case, we can write \p{Ll}
, punctuation signs: \p{P}
and so on.
There are also other derived categories, like:
Alphabetic
(Alpha
), includes LettersL
, plus letter numbersNl
(e.g. Ⅻ – a character for the roman number 12), plus some other symbolsOther_Alphabetic
(OAlpha
).Hex_Digit
includes hexadecimal digits:0-9
,a-f
.- …And so on.
Unicode supports many different properties, their full list would require a lot of space, so here are the references:
- List all properties by a character: https://unicode.org/cldr/utility/character.jsp.
- List all characters by a property: https://unicode.org/cldr/utility/list-unicodeset.jsp.
- Short aliases for properties: https://www.unicode.org/Public/UCD/latest/ucd/PropertyValueAliases.txt.
- A full base of Unicode characters in text format, with all properties, is here: https://www.unicode.org/Public/UCD/latest/ucd/.
Example: hexadecimal numbers
For instance, let’s look for hexadecimal numbers, written as xFF
, where F
is a hex digit (0…9 or A…F).
A hex digit can be denoted as \p{Hex_Digit}
:
let regexp = /x\p{Hex_Digit}\p{Hex_Digit}/u;
alert("number: xAF".match(regexp)); // xAF
Example: Chinese hieroglyphs
Let’s look for Chinese hieroglyphs.
There’s a Unicode property Script
(a writing system), that may have a value: Cyrillic
, Greek
, Arabic
, Han
(Chinese) and so on, here’s the full list.
To look for characters in a given writing system we should use Script=<value>
, e.g. for Cyrillic letters: \p{sc=Cyrillic}
, for Chinese hieroglyphs: \p{sc=Han}
, and so on:
let regexp = /\p{sc=Han}/gu; // returns Chinese hieroglyphs
let str = `Hello Привет 你好 123_456`;
alert( str.match(regexp) ); // 你,好
Example: currency
Characters that denote a currency, such as $
, €
, ¥
, have Unicode property \p{Currency_Symbol}
, the short alias: \p{Sc}
.
Let’s use it to look for prices in the format “currency, followed by a digit”:
let regexp = /\p{Sc}\d/gu;
let str = `Prices: $2, €1, ¥9`;
alert( str.match(regexp) ); // $2,€1,¥9
Later, in the article Quantifiers +, *, ? and {n} we’ll see how to look for numbers that contain many digits.
Summary
Flag u
enables the support of Unicode in regular expressions.
That means two things:
- Characters of 4 bytes are handled correctly: as a single character, not two 2-byte characters.
- Unicode properties can be used in the search:
\p{…}
.
With Unicode properties we can look for words in given languages, special characters (quotes, currencies) and so on.