A pattern is a string description. Bash uses them in various ways:
The pattern description language is relatively easy. Any character that's not mentioned below matches itself.
The NUL
character may not occur in a pattern. If special characters are quoted, they're matched literally, i.e., without their special meaning.
Do not confuse patterns with regular expressions, because they share some symbols and do similar matching work.
Sequence | Description |
---|---|
* | Matches any string, including the null string (empty string) |
? | Matches any single character |
X | Matches the character X which can be any character that has no special meaning |
\X | Matches the character X , where the character's special meaning is stripped by the backslash |
\\ | Matches a backslash |
[…] | Defines a pattern bracket expression (see below). Matches any of the enclosed characters at this position. |
The bracket expression […]
mentioned above has some useful applications:
Bracket expression | Description |
---|---|
[XYZ] | The "normal" bracket expression, matching either X , Y or Z |
[X-Z] | A range expression: Matching all the characters from X to Y (your current locale, defines how the characters are sorted!) |
[[:class:]] | Matches all the characters defined by a POSIX(r) character class: alnum , alpha , ascii , blank , cntrl , digit , graph , lower , print , punct , space , upper , word and xdigit |
[^…] | A negating expression: It matches all the characters that are not in the bracket expression |
[!…] | Equivalent to [^…] |
[]...] or [-…] | Used to include the characters ] and - into the set, they need to be the first characters after the opening bracket |
[=C=] | Matches any character that is eqivalent to the collation weight of C (current locale!) |
[[.SYMBOL.]] | Matches the collating symbol SYMBOL |
Some simple examples using normal pattern matching:
"Hello world"
matchesHello world
[Hh]"ello world"
matchesHello world
hello world
Hello*
matches (for example)Hello world
Helloworld
HelloWoRlD
Hello
Hello world[[:punct:]]
matches (for example)Hello world!
Hello world.
Hello world+
Hello world?
[[.backslash.]]Hello[[.vertical-line.]]world[[.exclamation-mark.]]
matches (using collation symbols)\Hello|world!
If you set the shell option extglob
, Bash understands some powerful patterns. A <PATTERN-LIST>
is one or more patterns, separated by the pipe-symbol (PATTERN|PATTERN
).
?(<PATTERN-LIST>) | Matches zero or one occurrence of the given patterns |
*(<PATTERN-LIST>) | Matches zero or more occurrences of the given patterns |
+(<PATTERN-LIST>) | Matches one or more occurrences of the given patterns |
@(<PATTERN-LIST>) | Matches one of the given patterns |
!(<PATTERN-LIST>) | Matches anything except one of the given patterns |
Delete all but one specific file
rm -f !(survivior.txt)
option | classification | description |
---|---|---|
dotglob | globbing | see Pathname expansion customization |
extglob | global | enable/disable extended pattern matching language, as described above |
failglob | globbing | see Pathname expansion customization |
nocaseglob | globbing | see Pathname expansion customization |
nocasematch | pattern/string matching | perform pattern matching without regarding the case of individual letters |
nullglob | globbing | see Pathname expansion customization |
globasciiranges | globbing | see Pathname expansion customization |
* Counter-intuitively, only the [!chars]
syntax for negating a character class is specified by POSIX for shell pattern matching. [^chars]
is merely a commonly-supported extension. Even dash supports [^chars]
, but not posh.
* All of the extglob quantifiers supported by bash were supported by ksh88. The set of extglob quantifiers supported by ksh88 are identical to those supported by Bash, mksh, ksh93, and zsh.
* mksh does not support POSIX character classes. Therefore, character ranges like [0-9]
are somewhat more portable than an equivalent POSIX class like [:digit:]
.
* Bash uses a custom runtime interpreter for pattern matching. (at least) ksh93 and zsh translate patterns into regexes and then use a regex compiler to emit and cache optimized pattern matching code. This means Bash may be an order of magnitude or more slower in cases that involve complex back-tracking (usually that means extglob quantifier nesting). You may wish to use Bash's regex support (the =~
operator) if performance is a problem, because Bash will use your C library regex implementation rather than its own pattern matcher.
TODO: describe the pattern escape bug https://gist.github.com/ormaaj/6195070
ksh93 supports some very powerful pattern matching features in addition to those described above.
* ksh93 supports arbitrary quantifiers just like ERE using the {from,to}(pattern-list)
syntax. {2,4}(foo)bar
matches between 2-4 "foo"'s followed by "bar". {2,}(foo)bar
matches 2 or more "foo"'s followed by "bar". You can probably figure out the rest. So far, none of the other shells support this syntax.
* In ksh93, a pattern-list
may be delimited by either &
or |
. &
means "all patterns must be matched" instead of "any pattern". For example,
[[ fo0bar == @(fo[0-9]&+([[:alnum:]]))bar ]]would be true while
[[ f00bar == @(fo[0-9]&+([[:alnum:]]))bar ]]is false, because all members of the and-list must be satisfied. No other shell supports this so far, but you can simulate some cases in other shells using double extglob negation. The aforementioned ksh93 pattern is equivalent in Bash to:
[[ fo0bar == !(!(fo[0-9])|!(+([[:alnum:]])))bar ]], which is technically more portable, but ugly.
* ksh93's printf builtin can translate from shell patterns to ERE and back again using the %R
and %P
format specifiers respectively.
TODO: ~()
(and regex), .sh.match
, backrefs, special ${var/…/…}
behavior, %()