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kakoune/doc/pages/regex.asciidoc
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= Regex
== Regex Syntax
Kakoune regex syntax is based on the ECMAScript syntax, as defined by the
ECMA-262 standard (see <<Compatibility>>).
Kakoune's regex always run on Unicode codepoint sequences, not on bytes.
== Literals
Every character except the syntax characters `\^$.*+?[]{}|().` match
themselves. Syntax characters can be escaped with a backspace so `\$`
will match a literal `$` and `\\` will match a literal `\`.
Some literals are available as escape sequences:
* `\f` matches the form feed character.
* `\n` matches the line feed character.
* `\r` matches the carriage return character.
* `\t` matches the tabulation character.
* `\v` matches the vertical tabulation character.
* `\0` matches the null character.
* `\cX` matches the control-X character (X can be in `[A-Za-z]`).
* `\xXX` matches the character whose codepoint is XX (in hexadecimal).
* `\uXXXX` matches the character whose codepoint is XXXX (in hexadecimal).
== Character classes
The `[` character introduces a character class, matching one character
from a set of characters.
A character class contains a list of literals, character ranges,
and character class escapes surrounded by `[` and `]`.
If the first character inside a character class is `^`, then the character
class is negated, meaning that it matches every character not specified
in the character class.
Literals match themselves, including syntax characters, so `^`
does not need to be escaped in a character class. `[*+]` matches both
the `*` character and the `+` character. Literal escape sequences are
supported, so `[\n\r]` matches both the line feed and carriage return
characters.
The `]` character needs to be escaped for it to match a literal `]`
instead of closing the character class.
Character ranges are written as `<start character>-<end character>`, so
`[A-Z]` matches all upper case basic letters. `[A-Z0-9]` will match all
upper cases basic letters and all basic digits.
The `-` characters in a character class that are not specifying a
range are treated as literal `-`, so `[A-Z-+]` matches all upper case
characters, the `-` character, and the `+` character.
Supported character class escapes are:
* `\d` which matches all digits.
* `\w` which matches all word characters.
* `\s` which matches all whitespace characters.
* `\h` which matches all horizontal whitespace characters.
Using an upper case letter instead of a lower case one will negate
the character class, meaning for example that `\D` will match every
non-digit character.
Character class escapes can be used outside of a character class, `\d`
is equivalent to `[\d]`.
== Any character
`.` matches any character, including new lines.
== Groups
Regex atoms can be grouped using `(` and `)` or `(?:` and `)`. If `(` is
used, the group will be a capturing group, which means the positions from
the subject strings that matched between `(` and `)` will be recorded.
Capture groups are numbered starting at 1. They are numbered in the order of
appearance of their `(` in the regex. A special capture group 0 is
for the whole sequence that matched.
`(?:` introduces a non capturing group, which will not record the
matching positions.
== Alternations
`|` introduces an alternation, which will either match its left-hand side,
or its right-hand side (preferring the left-hand side)
For example, `foo|bar` matches either `foo` or `bar`, `foo(bar|baz|qux)`
matches `foo` followed by either `bar`, `baz` or `qux`.
== Quantifier
Literals, Character classes, Any characters and groups can be followed
by a quantifier, which specifies the number of times they can match.
* `?` matches zero or one times.
* `*` matches zero or more times.
* `+` matches one or more times.
* `{n}` matches exactly n times.
* `{n,}` matches n or more times.
* `{n,m}` matches n to m times.
* `{,m}` matches zero to m times.
By default, quantifiers are *greedy*, which means they will prefer to
match more characters if possible. Suffixing a quantifier with `?` will
make it non-greedy, meaning it will prefer to match as few characters
as possible.
== Zero width assertions
Assertions do not consume any character, but will prevent the regex
from matching if they are not fulfilled.
* `^` matches at the start of a line, that is just after a new line
character, or at the subject begin (except if specified that the
subject begin is not a start of line).
* `$` matches at the end of a line, that is just before a new line, or
at the subject end (except if specified that the subject's end
is not an end of line).
* `\b` matches at a word boundary, when one of the previous character
and current character is a word character, and the other is not.
* `\B` matches at a non word boundary, when both the previous character
and the current character are word, or are not.
* `\A` matches at the subject string begin.
* `\z` matches at the subject string end.
* `\K` matches anything, and resets the start position of the capture
group 0 to the current position.
More complex assertions can be expressed with lookarounds:
* `(?=...)` is a lookahead, it will match if its content matches the text
following the current position
* `(?!...)` is a negative lookahead, it will match if its content does
not match the text following the current position
* `(?<=...)` is a lookbehind, it will match if its content matches
the text preceding the current position
* `(?<!...)` is a negative lookbehind, it will match if its content does
not match the text preceding the current position
For performance reasons lookaround contents must be sequence of literals,
character classes or any-character (`.`); The use of quantifiers
are not supported.
For example, `(?<!bar)(?=foo).` will match any character which is not
preceded by `bar` and where `foo` matches from the current position
(which means the character has to be an `f`).
== Modifiers
Some modifiers can control the matching behavior of the atoms following
them:
* `(?i)` enables case-insensitive matching
* `(?I)` disables case-insensitive matching
== Quoting
`\Q` will start a quoted sequence, where every character is treated as
a literal. That quoted sequence will continue until either the end of
the regex, or the appearance of `\E`.
For example `.\Q.^$\E$` will match any character followed by the literal
string `.^$` followed by an end of line.
== Compatibility
The syntax tries to follow the ECMAScript regex syntax as defined by
https://www.ecma-international.org/ecma-262/8.0/ some divergences
exists for ease of use or performance reasons:
* lookarounds are not arbitrary, but lookbehind are supported.
* `\K`, `\Q..\E`, `\A`, `\h` and `\z` are added.
* Stricter handling of escaping, as we introduce additional
escapes, identity escapes like `\X` with X a non-special character
are not accepted, to avoid confusions between `\h` meaning literal
`h` in ECMAScript, and horizontal blank in Kakoune.