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+.\" Copyright (c) 1998 Andries Brouwer
+.\"
+.\" SPDX-License-Identifier: GPL-2.0-or-later
+.\"
+.\" 2003-08-24 fix for / by John Kristoff + joey
+.\"
+.TH glob 7 2023-03-08 "Linux man-pages 6.05.01"
+.SH NAME
+glob \- globbing pathnames
+.SH DESCRIPTION
+Long ago, in UNIX\ V6, there was a program
+.I /etc/glob
+that would expand wildcard patterns.
+Soon afterward this became a shell built-in.
+.PP
+These days there is also a library routine
+.BR glob (3)
+that will perform this function for a user program.
+.PP
+The rules are as follows (POSIX.2, 3.13).
+.SS Wildcard matching
+A string is a wildcard pattern if it contains one of the
+characters \[aq]?\[aq], \[aq]*\[aq], or \[aq][\[aq].
+Globbing is the operation
+that expands a wildcard pattern into the list of pathnames
+matching the pattern.
+Matching is defined by:
+.PP
+A \[aq]?\[aq] (not between brackets) matches any single character.
+.PP
+A \[aq]*\[aq] (not between brackets) matches any string,
+including the empty string.
+.PP
+.B "Character classes"
+.PP
+An expression "\fI[...]\fP" where the first character after the
+leading \[aq][\[aq] is not an \[aq]!\[aq] matches a single character,
+namely any of the characters enclosed by the brackets.
+The string enclosed by the brackets cannot be empty;
+therefore \[aq]]\[aq] can be allowed between the brackets, provided
+that it is the first character.
+(Thus, "\fI[][!]\fP" matches the
+three characters \[aq][\[aq], \[aq]]\[aq], and \[aq]!\[aq].)
+.PP
+.B Ranges
+.PP
+There is one special convention:
+two characters separated by \[aq]\-\[aq] denote a range.
+(Thus,
+"\fI[A\-Fa\-f0\-9]\fP" is equivalent to "\fI[ABCDEFabcdef0123456789]\fP".)
+One may include \[aq]\-\[aq] in its literal meaning
+by making it the first or last character between the brackets.
+(Thus,
+"\fI[]\-]\fP" matches just the two characters \[aq]]\[aq] and \[aq]\-\[aq],
+and "\fI[\-\-0]\fP" matches the
+three characters \[aq]\-\[aq], \[aq].\[aq], and \[aq]0\[aq],
+since \[aq]/\[aq] cannot be matched.)
+.PP
+.B Complementation
+.PP
+An expression "\fI[!...]\fP" matches a single character, namely
+any character that is not matched by the expression obtained
+by removing the first \[aq]!\[aq] from it.
+(Thus, "\fI[!]a\-]\fP" matches any
+single character except \[aq]]\[aq], \[aq]a\[aq], and \[aq]\-\[aq].)
+.PP
+One can remove the special meaning of \[aq]?\[aq], \[aq]*\[aq], and \[aq][\[aq]
+by preceding them by a backslash,
+or,
+in case this is part of a shell command line,
+enclosing them in quotes.
+Between brackets these characters stand for themselves.
+Thus, "\fI[[?*\e]\fP" matches the
+four characters \[aq][\[aq], \[aq]?\[aq], \[aq]*\[aq], and \[aq]\e\[aq].
+.SS Pathnames
+Globbing is applied on each of the components of a pathname
+separately.
+A \[aq]/\[aq] in a pathname cannot be matched by a \[aq]?\[aq] or \[aq]*\[aq]
+wildcard, or by a range like "\fI[.\-0]\fP".
+A range containing an explicit \[aq]/\[aq] character is syntactically incorrect.
+(POSIX requires that syntactically incorrect patterns are left unchanged.)
+.PP
+If a filename starts with a \[aq].\[aq],
+this character must be matched explicitly.
+(Thus, \fIrm\ *\fP will not remove .profile, and \fItar\ c\ *\fP will not
+archive all your files; \fItar\ c\ .\fP is better.)
+.SS Empty lists
+The nice and simple rule given above: "expand a wildcard pattern
+into the list of matching pathnames" was the original UNIX
+definition.
+It allowed one to have patterns that expand into
+an empty list, as in
+.PP
+.nf
+ xv \-wait 0 *.gif *.jpg
+.fi
+.PP
+where perhaps no *.gif files are present (and this is not
+an error).
+However, POSIX requires that a wildcard pattern is left
+unchanged when it is syntactically incorrect, or the list of
+matching pathnames is empty.
+With
+.I bash
+one can force the classical behavior using this command:
+.PP
+.in +4n
+.EX
+shopt \-s nullglob
+.EE
+.in
+.\" In Bash v1, by setting allow_null_glob_expansion=true
+.PP
+(Similar problems occur elsewhere.
+For example, where old scripts have
+.PP
+.in +4n
+.EX
+rm \`find . \-name "*\[ti]"\`
+.EE
+.in
+.PP
+new scripts require
+.PP
+.in +4n
+.EX
+rm \-f nosuchfile \`find . \-name "*\[ti]"\`
+.EE
+.in
+.PP
+to avoid error messages from
+.I rm
+called with an empty argument list.)
+.SH NOTES
+.SS Regular expressions
+Note that wildcard patterns are not regular expressions,
+although they are a bit similar.
+First of all, they match
+filenames, rather than text, and secondly, the conventions
+are not the same: for example, in a regular expression \[aq]*\[aq] means zero or
+more copies of the preceding thing.
+.PP
+Now that regular expressions have bracket expressions where
+the negation is indicated by a \[aq]\[ha]\[aq], POSIX has declared the
+effect of a wildcard pattern "\fI[\[ha]...]\fP" to be undefined.
+.SS Character classes and internationalization
+Of course ranges were originally meant to be ASCII ranges,
+so that "\fI[\ \-%]\fP" stands for "\fI[\ !"#$%]\fP" and "\fI[a\-z]\fP" stands
+for "any lowercase letter".
+Some UNIX implementations generalized this so that a range X\-Y
+stands for the set of characters with code between the codes for
+X and for Y.
+However, this requires the user to know the
+character coding in use on the local system, and moreover, is
+not convenient if the collating sequence for the local alphabet
+differs from the ordering of the character codes.
+Therefore, POSIX extended the bracket notation greatly,
+both for wildcard patterns and for regular expressions.
+In the above we saw three types of items that can occur in a bracket
+expression: namely (i) the negation, (ii) explicit single characters,
+and (iii) ranges.
+POSIX specifies ranges in an internationally
+more useful way and adds three more types:
+.PP
+(iii) Ranges X\-Y comprise all characters that fall between X
+and Y (inclusive) in the current collating sequence as defined
+by the
+.B LC_COLLATE
+category in the current locale.
+.PP
+(iv) Named character classes, like
+.PP
+.nf
+[:alnum:] [:alpha:] [:blank:] [:cntrl:]
+[:digit:] [:graph:] [:lower:] [:print:]
+[:punct:] [:space:] [:upper:] [:xdigit:]
+.fi
+.PP
+so that one can say "\fI[[:lower:]]\fP" instead of "\fI[a\-z]\fP", and have
+things work in Denmark, too, where there are three letters past \[aq]z\[aq]
+in the alphabet.
+These character classes are defined by the
+.B LC_CTYPE
+category
+in the current locale.
+.PP
+(v) Collating symbols, like "\fI[.ch.]\fP" or "\fI[.a-acute.]\fP",
+where the string between "\fI[.\fP" and "\fI.]\fP" is a collating
+element defined for the current locale.
+Note that this may
+be a multicharacter element.
+.PP
+(vi) Equivalence class expressions, like "\fI[=a=]\fP",
+where the string between "\fI[=\fP" and "\fI=]\fP" is any collating
+element from its equivalence class, as defined for the
+current locale.
+For example, "\fI[[=a=]]\fP" might be equivalent
+to "\fI[a\('a\(`a\(:a\(^a]\fP", that is,
+to "\fI[a[.a-acute.][.a-grave.][.a-umlaut.][.a-circumflex.]]\fP".
+.SH SEE ALSO
+.BR sh (1),
+.BR fnmatch (3),
+.BR glob (3),
+.BR locale (7),
+.BR regex (7)