fnmatch(5) Standards, Environments, and Macros fnmatch(5)NAMEfnmatch - file name pattern matching
DESCRIPTION
The pattern matching notation described below is used to specify pat‐
terns for matching strings in the shell. Historically, pattern matching
notation is related to, but slightly different from, the regular
expression notation. For this reason, the description of the rules for
this pattern matching notation is based on the description of regular
expression notation described on the regex(5) manual page.
Patterns Matching a Single Character
The following patterns matching a single character match a single char‐
acter: ordinary characters, special pattern characters and pattern
bracket expressions. The pattern bracket expression will also match a
single collating element.
An ordinary character is a pattern that matches itself. It can be any
character in the supported character set except for NUL, those special
shell characters that require quoting, and the following three special
pattern characters. Matching is based on the bit pattern used for
encoding the character, not on the graphic representation of the char‐
acter. If any character (ordinary, shell special, or pattern special)
is quoted, that pattern will match the character itself. The shell spe‐
cial characters always require quoting.
When unquoted and outside a bracket expression, the following three
characters will have special meaning in the specification of patterns:
? A question-mark is a pattern that will match any character.
* An asterisk is a pattern that will match multiple characters,
as described in Patterns Matching Multiple Characters, below.
[ The open bracket will introduce a pattern bracket expression.
The description of basic regular expression bracket expressions on the
regex(5) manual page also applies to the pattern bracket expression,
except that the exclamation-mark character ( ! ) replaces the circum‐
flex character (^) in its role in a non-matching list in the regular
expression notation. A bracket expression starting with an unquoted
circumflex character produces unspecified results.
The restriction on a circumflex in a bracket expression is to allow
implementations that support pattern matching using the circumflex as
the negation character in addition to the exclamation-mark. A portable
application must use something like [\^!] to match either character.
When pattern matching is used where shell quote removal is not per‐
formed (such as in the argument to the find -name primary when find is
being called using one of the exec functions, or in the pattern argu‐
ment to the fnmatch(3C) function, special characters can be escaped to
remove their special meaning by preceding them with a backslash charac‐
ter. This escaping backslash will be discarded. The sequence \\ repre‐
sents one literal backslash. All of the requirements and effects of
quoting on ordinary, shell special and special pattern characters will
apply to escaping in this context.
Both quoting and escaping are described here because pattern matching
must work in three separate circumstances:
· Calling directly upon the shell, such as in pathname expansion or
in a case statement. All of the following will match the string or
file abc:
abc "abc" a"b"c a\bc a[b]c
a["b"]c a[\b]c a["\b"]c a?c a*c
The following will not:
"a?c" a\*c a\[b]c
· Calling a utility or function without going through a shell, as
described for find(1) and the function fnmatch(3C)
· Calling utilities such as find, cpio, tar or pax through the shell
command line. In this case, shell quote removal is performed
before the utility sees the argument. For example, in:
find /bin -name e\c[\h]o -print
after quote removal, the backslashes are presented to find and it
treats them as escape characters. Both precede ordinary characters, so
the c and h represent themselves and echo would be found on many his‐
torical systems (that have it in /bin). To find a file name that con‐
tained shell special characters or pattern characters, both quoting and
escaping are required, such as:
pax -r ... "*a\(\?"
to extract a filename ending with a(?.
Conforming applications are required to quote or escape the shell special
characters (sometimes called metacharacters). If used without this protec‐
tion, syntax errors can result or implementation extensions can be trig‐
gered. For example, the KornShell supports a series of extensions based on
parentheses in patterns; see ksh(1)
Patterns Matching Multiple Characters
The following rules are used to construct patterns matching multiple
characters from patterns matching a single character:
· The asterisk (*) is a pattern that will match any string, includ‐
ing the null string.
· The concatenation of patterns matching a single character is a
valid pattern that will match the concatenation of the single
characters or collating elements matched by each of the concate‐
nated patterns.
· The concatenation of one or more patterns matching a single char‐
acter with one or more asterisks is a valid pattern. In such pat‐
terns, each asterisk will match a string of zero or more charac‐
ters, matching the greatest possible number of characters that
still allows the remainder of the pattern to match the string.
Since each asterisk matches zero or more occurrences, the patterns a*b
and a**b have identical functionality.
Examples:
a[bc] matches the strings ab and ac.
a*d matches the strings ad, abd and abcd, but not the
string abc.
a*d* matches the strings ad, abcd, abcdef, aaaad and adddd.
*a*d matches the strings ad, abcd, efabcd, aaaad and adddd.
Patterns Used for Filename Expansion
The rules described so far in Patterns Matching Multiple Characters and
Patterns Matching a Single Character are qualified by the following
rules that apply when pattern matching notation is used for filename
expansion.
1. The slash character in a pathname must be explicitly matched by
using one or more slashes in the pattern; it cannot be matched by
the asterisk or question-mark special characters or by a bracket
expression. Slashes in the pattern are identified before bracket
expressions; thus, a slash cannot be included in a pattern bracket
expression used for filename expansion. For example, the pattern
a[b/c]d will not match such pathnames as abd or a/d. It will only
match a pathname of literally a[b/c]d.
2. If a filename begins with a period (.), the period must be explic‐
itly matched by using a period as the first character of the pat‐
tern or immediately following a slash character. The leading period
will not be matched by:
· the asterisk or question-mark special characters
· a bracket expression containing a non-matching list, such as:
[!a]
a range expression, such as:
[%−0]
or a character class expression, such as:
[[:punct:]]
It is unspecified whether an explicit period in a bracket expres‐
sion matching list, such as:
[.abc]
can match a leading period in a filename.
3. Specified patterns are matched against existing filenames and path‐
names, as appropriate. Each component that contains a pattern
character requires read permission in the directory containing that
component. Any component, except the last, that does not contain a
pattern character requires search permission. For example, given
the pattern:
/foo/bar/x*/bam
search permission is needed for directories / and foo, search and
read permissions are needed for directory bar, and search permis‐
sion is needed for each x* directory.
If the pattern matches any existing filenames or pathnames, the
pattern will be replaced with those filenames and pathnames, sorted
according to the collating sequence in effect in the current
locale. If the pattern contains an invalid bracket expression or
does not match any existing filenames or pathnames, the pattern
string is left unchanged.
SEE ALSOfind(1), ksh(1), fnmatch(3C), regex(5)SunOS 5.10 28 Mar 1995 fnmatch(5)