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* manual/pattern.texi (Variable Substitution): Fix # and ## examples.
1536 lines
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1536 lines
56 KiB
Plaintext
@node Pattern Matching, I/O Overview, Searching and Sorting, Top
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@c %MENU% Matching shell ``globs'' and regular expressions
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@chapter Pattern Matching
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The GNU C Library provides pattern matching facilities for two kinds of
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patterns: regular expressions and file-name wildcards. The library also
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provides a facility for expanding variable and command references and
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parsing text into words in the way the shell does.
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@menu
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* Wildcard Matching:: Matching a wildcard pattern against a single string.
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* Globbing:: Finding the files that match a wildcard pattern.
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* Regular Expressions:: Matching regular expressions against strings.
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* Word Expansion:: Expanding shell variables, nested commands,
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arithmetic, and wildcards.
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This is what the shell does with shell commands.
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@end menu
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@node Wildcard Matching
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@section Wildcard Matching
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@pindex fnmatch.h
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This section describes how to match a wildcard pattern against a
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particular string. The result is a yes or no answer: does the
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string fit the pattern or not. The symbols described here are all
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declared in @file{fnmatch.h}.
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@comment fnmatch.h
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@comment POSIX.2
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@deftypefun int fnmatch (const char *@var{pattern}, const char *@var{string}, int @var{flags})
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This function tests whether the string @var{string} matches the pattern
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@var{pattern}. It returns @code{0} if they do match; otherwise, it
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returns the nonzero value @code{FNM_NOMATCH}. The arguments
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@var{pattern} and @var{string} are both strings.
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The argument @var{flags} is a combination of flag bits that alter the
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details of matching. See below for a list of the defined flags.
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In the GNU C Library, @code{fnmatch} cannot experience an ``error''---it
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always returns an answer for whether the match succeeds. However, other
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implementations of @code{fnmatch} might sometimes report ``errors''.
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They would do so by returning nonzero values that are not equal to
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@code{FNM_NOMATCH}.
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@end deftypefun
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These are the available flags for the @var{flags} argument:
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@table @code
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@comment fnmatch.h
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@comment GNU
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@item FNM_FILE_NAME
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Treat the @samp{/} character specially, for matching file names. If
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this flag is set, wildcard constructs in @var{pattern} cannot match
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@samp{/} in @var{string}. Thus, the only way to match @samp{/} is with
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an explicit @samp{/} in @var{pattern}.
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@comment fnmatch.h
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@comment POSIX.2
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@item FNM_PATHNAME
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This is an alias for @code{FNM_FILE_NAME}; it comes from POSIX.2. We
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don't recommend this name because we don't use the term ``pathname'' for
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file names.
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@comment fnmatch.h
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@comment POSIX.2
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@item FNM_PERIOD
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Treat the @samp{.} character specially if it appears at the beginning of
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@var{string}. If this flag is set, wildcard constructs in @var{pattern}
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cannot match @samp{.} as the first character of @var{string}.
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If you set both @code{FNM_PERIOD} and @code{FNM_FILE_NAME}, then the
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special treatment applies to @samp{.} following @samp{/} as well as to
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@samp{.} at the beginning of @var{string}. (The shell uses the
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@code{FNM_PERIOD} and @code{FNM_FILE_NAME} flags together for matching
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file names.)
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@comment fnmatch.h
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@comment POSIX.2
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@item FNM_NOESCAPE
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Don't treat the @samp{\} character specially in patterns. Normally,
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@samp{\} quotes the following character, turning off its special meaning
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(if any) so that it matches only itself. When quoting is enabled, the
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pattern @samp{\?} matches only the string @samp{?}, because the question
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mark in the pattern acts like an ordinary character.
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If you use @code{FNM_NOESCAPE}, then @samp{\} is an ordinary character.
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@comment fnmatch.h
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@comment GNU
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@item FNM_LEADING_DIR
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Ignore a trailing sequence of characters starting with a @samp{/} in
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@var{string}; that is to say, test whether @var{string} starts with a
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directory name that @var{pattern} matches.
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If this flag is set, either @samp{foo*} or @samp{foobar} as a pattern
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would match the string @samp{foobar/frobozz}.
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@comment fnmatch.h
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@comment GNU
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@item FNM_CASEFOLD
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Ignore case in comparing @var{string} to @var{pattern}.
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@comment fnmatch.h
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@comment GNU
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@item FNM_EXTMATCH
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@cindex Korn Shell
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@pindex ksh
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Recognize beside the normal patterns also the extended patterns
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introduced in @file{ksh}. The patterns are written in the form
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explained in the following table where @var{pattern-list} is a @code{|}
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separated list of patterns.
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@table @code
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@item ?(@var{pattern-list})
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The pattern matches if zero or one occurrences of any of the patterns
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in the @var{pattern-list} allow matching the input string.
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@item *(@var{pattern-list})
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The pattern matches if zero or more occurrences of any of the patterns
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in the @var{pattern-list} allow matching the input string.
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@item +(@var{pattern-list})
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The pattern matches if one or more occurrences of any of the patterns
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in the @var{pattern-list} allow matching the input string.
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@item @@(@var{pattern-list})
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The pattern matches if exactly one occurrence of any of the patterns in
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the @var{pattern-list} allows matching the input string.
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@item !(@var{pattern-list})
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The pattern matches if the input string cannot be matched with any of
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the patterns in the @var{pattern-list}.
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@end table
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@end table
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@node Globbing
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@section Globbing
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@cindex globbing
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The archetypal use of wildcards is for matching against the files in a
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directory, and making a list of all the matches. This is called
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@dfn{globbing}.
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You could do this using @code{fnmatch}, by reading the directory entries
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one by one and testing each one with @code{fnmatch}. But that would be
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slow (and complex, since you would have to handle subdirectories by
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hand).
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The library provides a function @code{glob} to make this particular use
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of wildcards convenient. @code{glob} and the other symbols in this
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section are declared in @file{glob.h}.
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@menu
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* Calling Glob:: Basic use of @code{glob}.
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* Flags for Globbing:: Flags that enable various options in @code{glob}.
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* More Flags for Globbing:: GNU specific extensions to @code{glob}.
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@end menu
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@node Calling Glob
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@subsection Calling @code{glob}
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The result of globbing is a vector of file names (strings). To return
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this vector, @code{glob} uses a special data type, @code{glob_t}, which
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is a structure. You pass @code{glob} the address of the structure, and
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it fills in the structure's fields to tell you about the results.
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@comment glob.h
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@comment POSIX.2
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@deftp {Data Type} glob_t
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This data type holds a pointer to a word vector. More precisely, it
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records both the address of the word vector and its size. The GNU
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implementation contains some more fields which are non-standard
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extensions.
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@table @code
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@item gl_pathc
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The number of elements in the vector, excluding the initial null entries
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if the GLOB_DOOFFS flag is used (see gl_offs below).
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@item gl_pathv
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The address of the vector. This field has type @w{@code{char **}}.
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@item gl_offs
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The offset of the first real element of the vector, from its nominal
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address in the @code{gl_pathv} field. Unlike the other fields, this
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is always an input to @code{glob}, rather than an output from it.
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If you use a nonzero offset, then that many elements at the beginning of
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the vector are left empty. (The @code{glob} function fills them with
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null pointers.)
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The @code{gl_offs} field is meaningful only if you use the
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@code{GLOB_DOOFFS} flag. Otherwise, the offset is always zero
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regardless of what is in this field, and the first real element comes at
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the beginning of the vector.
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@item gl_closedir
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The address of an alternative implementation of the @code{closedir}
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function. It is used if the @code{GLOB_ALTDIRFUNC} bit is set in
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the flag parameter. The type of this field is
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@w{@code{void (*) (void *)}}.
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This is a GNU extension.
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@item gl_readdir
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The address of an alternative implementation of the @code{readdir}
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function used to read the contents of a directory. It is used if the
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@code{GLOB_ALTDIRFUNC} bit is set in the flag parameter. The type of
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this field is @w{@code{struct dirent *(*) (void *)}}.
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This is a GNU extension.
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@item gl_opendir
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The address of an alternative implementation of the @code{opendir}
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function. It is used if the @code{GLOB_ALTDIRFUNC} bit is set in
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the flag parameter. The type of this field is
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@w{@code{void *(*) (const char *)}}.
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This is a GNU extension.
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@item gl_stat
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The address of an alternative implementation of the @code{stat} function
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to get information about an object in the filesystem. It is used if the
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@code{GLOB_ALTDIRFUNC} bit is set in the flag parameter. The type of
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this field is @w{@code{int (*) (const char *, struct stat *)}}.
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This is a GNU extension.
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@item gl_lstat
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The address of an alternative implementation of the @code{lstat}
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function to get information about an object in the filesystems, not
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following symbolic links. It is used if the @code{GLOB_ALTDIRFUNC} bit
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is set in the flag parameter. The type of this field is @code{@w{int
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(*) (const char *,} @w{struct stat *)}}.
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This is a GNU extension.
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@end table
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@end deftp
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For use in the @code{glob64} function @file{glob.h} contains another
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definition for a very similar type. @code{glob64_t} differs from
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@code{glob_t} only in the types of the members @code{gl_readdir},
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@code{gl_stat}, and @code{gl_lstat}.
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@comment glob.h
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@comment GNU
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@deftp {Data Type} glob64_t
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This data type holds a pointer to a word vector. More precisely, it
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records both the address of the word vector and its size. The GNU
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implementation contains some more fields which are non-standard
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extensions.
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@table @code
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@item gl_pathc
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The number of elements in the vector, excluding the initial null entries
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if the GLOB_DOOFFS flag is used (see gl_offs below).
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@item gl_pathv
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The address of the vector. This field has type @w{@code{char **}}.
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@item gl_offs
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The offset of the first real element of the vector, from its nominal
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address in the @code{gl_pathv} field. Unlike the other fields, this
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is always an input to @code{glob}, rather than an output from it.
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If you use a nonzero offset, then that many elements at the beginning of
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the vector are left empty. (The @code{glob} function fills them with
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null pointers.)
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The @code{gl_offs} field is meaningful only if you use the
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@code{GLOB_DOOFFS} flag. Otherwise, the offset is always zero
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regardless of what is in this field, and the first real element comes at
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the beginning of the vector.
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@item gl_closedir
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The address of an alternative implementation of the @code{closedir}
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function. It is used if the @code{GLOB_ALTDIRFUNC} bit is set in
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the flag parameter. The type of this field is
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@w{@code{void (*) (void *)}}.
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This is a GNU extension.
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@item gl_readdir
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The address of an alternative implementation of the @code{readdir64}
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function used to read the contents of a directory. It is used if the
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@code{GLOB_ALTDIRFUNC} bit is set in the flag parameter. The type of
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this field is @w{@code{struct dirent64 *(*) (void *)}}.
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This is a GNU extension.
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@item gl_opendir
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The address of an alternative implementation of the @code{opendir}
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function. It is used if the @code{GLOB_ALTDIRFUNC} bit is set in
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the flag parameter. The type of this field is
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@w{@code{void *(*) (const char *)}}.
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This is a GNU extension.
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@item gl_stat
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The address of an alternative implementation of the @code{stat64} function
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to get information about an object in the filesystem. It is used if the
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@code{GLOB_ALTDIRFUNC} bit is set in the flag parameter. The type of
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this field is @w{@code{int (*) (const char *, struct stat64 *)}}.
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This is a GNU extension.
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@item gl_lstat
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The address of an alternative implementation of the @code{lstat64}
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function to get information about an object in the filesystems, not
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following symbolic links. It is used if the @code{GLOB_ALTDIRFUNC} bit
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is set in the flag parameter. The type of this field is @code{@w{int
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(*) (const char *,} @w{struct stat64 *)}}.
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This is a GNU extension.
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@end table
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@end deftp
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@comment glob.h
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@comment POSIX.2
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@deftypefun int glob (const char *@var{pattern}, int @var{flags}, int (*@var{errfunc}) (const char *@var{filename}, int @var{error-code}), glob_t *@var{vector-ptr})
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The function @code{glob} does globbing using the pattern @var{pattern}
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in the current directory. It puts the result in a newly allocated
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vector, and stores the size and address of this vector into
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@code{*@var{vector-ptr}}. The argument @var{flags} is a combination of
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bit flags; see @ref{Flags for Globbing}, for details of the flags.
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The result of globbing is a sequence of file names. The function
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@code{glob} allocates a string for each resulting word, then
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allocates a vector of type @code{char **} to store the addresses of
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these strings. The last element of the vector is a null pointer.
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This vector is called the @dfn{word vector}.
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To return this vector, @code{glob} stores both its address and its
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length (number of elements, not counting the terminating null pointer)
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into @code{*@var{vector-ptr}}.
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Normally, @code{glob} sorts the file names alphabetically before
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returning them. You can turn this off with the flag @code{GLOB_NOSORT}
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if you want to get the information as fast as possible. Usually it's
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a good idea to let @code{glob} sort them---if you process the files in
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alphabetical order, the users will have a feel for the rate of progress
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that your application is making.
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If @code{glob} succeeds, it returns 0. Otherwise, it returns one
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of these error codes:
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@vtable @code
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@comment glob.h
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@comment POSIX.2
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@item GLOB_ABORTED
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There was an error opening a directory, and you used the flag
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@code{GLOB_ERR} or your specified @var{errfunc} returned a nonzero
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value.
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@iftex
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See below
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@end iftex
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@ifinfo
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@xref{Flags for Globbing},
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@end ifinfo
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for an explanation of the @code{GLOB_ERR} flag and @var{errfunc}.
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@comment glob.h
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@comment POSIX.2
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@item GLOB_NOMATCH
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The pattern didn't match any existing files. If you use the
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@code{GLOB_NOCHECK} flag, then you never get this error code, because
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that flag tells @code{glob} to @emph{pretend} that the pattern matched
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at least one file.
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@comment glob.h
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@comment POSIX.2
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@item GLOB_NOSPACE
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It was impossible to allocate memory to hold the result.
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@end vtable
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In the event of an error, @code{glob} stores information in
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@code{*@var{vector-ptr}} about all the matches it has found so far.
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It is important to notice that the @code{glob} function will not fail if
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it encounters directories or files which cannot be handled without the
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LFS interfaces. The implementation of @code{glob} is supposed to use
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these functions internally. This at least is the assumptions made by
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the Unix standard. The GNU extension of allowing the user to provide
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own directory handling and @code{stat} functions complicates things a
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bit. If these callback functions are used and a large file or directory
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is encountered @code{glob} @emph{can} fail.
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@end deftypefun
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@comment glob.h
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@comment GNU
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@deftypefun int glob64 (const char *@var{pattern}, int @var{flags}, int (*@var{errfunc}) (const char *@var{filename}, int @var{error-code}), glob64_t *@var{vector-ptr})
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The @code{glob64} function was added as part of the Large File Summit
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extensions but is not part of the original LFS proposal. The reason for
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this is simple: it is not necessary. The necessity for a @code{glob64}
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function is added by the extensions of the GNU @code{glob}
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implementation which allows the user to provide own directory handling
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and @code{stat} functions. The @code{readdir} and @code{stat} functions
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do depend on the choice of @code{_FILE_OFFSET_BITS} since the definition
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of the types @code{struct dirent} and @code{struct stat} will change
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depending on the choice.
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Beside this difference the @code{glob64} works just like @code{glob} in
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all aspects.
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This function is a GNU extension.
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@end deftypefun
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@node Flags for Globbing
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@subsection Flags for Globbing
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This section describes the flags that you can specify in the
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@var{flags} argument to @code{glob}. Choose the flags you want,
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and combine them with the C bitwise OR operator @code{|}.
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|
@vtable @code
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|
@comment glob.h
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|
@comment POSIX.2
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@item GLOB_APPEND
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Append the words from this expansion to the vector of words produced by
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previous calls to @code{glob}. This way you can effectively expand
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several words as if they were concatenated with spaces between them.
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|
In order for appending to work, you must not modify the contents of the
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|
word vector structure between calls to @code{glob}. And, if you set
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@code{GLOB_DOOFFS} in the first call to @code{glob}, you must also
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|
set it when you append to the results.
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|
Note that the pointer stored in @code{gl_pathv} may no longer be valid
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|
after you call @code{glob} the second time, because @code{glob} might
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have relocated the vector. So always fetch @code{gl_pathv} from the
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|
@code{glob_t} structure after each @code{glob} call; @strong{never} save
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the pointer across calls.
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|
@comment glob.h
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|
@comment POSIX.2
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@item GLOB_DOOFFS
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Leave blank slots at the beginning of the vector of words.
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The @code{gl_offs} field says how many slots to leave.
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The blank slots contain null pointers.
|
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|
@comment glob.h
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|
@comment POSIX.2
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|
@item GLOB_ERR
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Give up right away and report an error if there is any difficulty
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|
reading the directories that must be read in order to expand @var{pattern}
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fully. Such difficulties might include a directory in which you don't
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|
have the requisite access. Normally, @code{glob} tries its best to keep
|
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on going despite any errors, reading whatever directories it can.
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|
You can exercise even more control than this by specifying an
|
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error-handler function @var{errfunc} when you call @code{glob}. If
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@var{errfunc} is not a null pointer, then @code{glob} doesn't give up
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|
right away when it can't read a directory; instead, it calls
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@var{errfunc} with two arguments, like this:
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|
|
@smallexample
|
|
(*@var{errfunc}) (@var{filename}, @var{error-code})
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|
@end smallexample
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@noindent
|
|
The argument @var{filename} is the name of the directory that
|
|
@code{glob} couldn't open or couldn't read, and @var{error-code} is the
|
|
@code{errno} value that was reported to @code{glob}.
|
|
|
|
If the error handler function returns nonzero, then @code{glob} gives up
|
|
right away. Otherwise, it continues.
|
|
|
|
@comment glob.h
|
|
@comment POSIX.2
|
|
@item GLOB_MARK
|
|
If the pattern matches the name of a directory, append @samp{/} to the
|
|
directory's name when returning it.
|
|
|
|
@comment glob.h
|
|
@comment POSIX.2
|
|
@item GLOB_NOCHECK
|
|
If the pattern doesn't match any file names, return the pattern itself
|
|
as if it were a file name that had been matched. (Normally, when the
|
|
pattern doesn't match anything, @code{glob} returns that there were no
|
|
matches.)
|
|
|
|
@comment glob.h
|
|
@comment POSIX.2
|
|
@item GLOB_NOSORT
|
|
Don't sort the file names; return them in no particular order.
|
|
(In practice, the order will depend on the order of the entries in
|
|
the directory.) The only reason @emph{not} to sort is to save time.
|
|
|
|
@comment glob.h
|
|
@comment POSIX.2
|
|
@item GLOB_NOESCAPE
|
|
Don't treat the @samp{\} character specially in patterns. Normally,
|
|
@samp{\} quotes the following character, turning off its special meaning
|
|
(if any) so that it matches only itself. When quoting is enabled, the
|
|
pattern @samp{\?} matches only the string @samp{?}, because the question
|
|
mark in the pattern acts like an ordinary character.
|
|
|
|
If you use @code{GLOB_NOESCAPE}, then @samp{\} is an ordinary character.
|
|
|
|
@code{glob} does its work by calling the function @code{fnmatch}
|
|
repeatedly. It handles the flag @code{GLOB_NOESCAPE} by turning on the
|
|
@code{FNM_NOESCAPE} flag in calls to @code{fnmatch}.
|
|
@end vtable
|
|
|
|
@node More Flags for Globbing
|
|
@subsection More Flags for Globbing
|
|
|
|
Beside the flags described in the last section, the GNU implementation of
|
|
@code{glob} allows a few more flags which are also defined in the
|
|
@file{glob.h} file. Some of the extensions implement functionality
|
|
which is available in modern shell implementations.
|
|
|
|
@vtable @code
|
|
@comment glob.h
|
|
@comment GNU
|
|
@item GLOB_PERIOD
|
|
The @code{.} character (period) is treated special. It cannot be
|
|
matched by wildcards. @xref{Wildcard Matching}, @code{FNM_PERIOD}.
|
|
|
|
@comment glob.h
|
|
@comment GNU
|
|
@item GLOB_MAGCHAR
|
|
The @code{GLOB_MAGCHAR} value is not to be given to @code{glob} in the
|
|
@var{flags} parameter. Instead, @code{glob} sets this bit in the
|
|
@var{gl_flags} element of the @var{glob_t} structure provided as the
|
|
result if the pattern used for matching contains any wildcard character.
|
|
|
|
@comment glob.h
|
|
@comment GNU
|
|
@item GLOB_ALTDIRFUNC
|
|
Instead of the using the using the normal functions for accessing the
|
|
filesystem the @code{glob} implementation uses the user-supplied
|
|
functions specified in the structure pointed to by @var{pglob}
|
|
parameter. For more information about the functions refer to the
|
|
sections about directory handling see @ref{Accessing Directories}, and
|
|
@ref{Reading Attributes}.
|
|
|
|
@comment glob.h
|
|
@comment GNU
|
|
@item GLOB_BRACE
|
|
If this flag is given the handling of braces in the pattern is changed.
|
|
It is now required that braces appear correctly grouped. I.e., for each
|
|
opening brace there must be a closing one. Braces can be used
|
|
recursively. So it is possible to define one brace expression in
|
|
another one. It is important to note that the range of each brace
|
|
expression is completely contained in the outer brace expression (if
|
|
there is one).
|
|
|
|
The string between the matching braces is separated into single
|
|
expressions by splitting at @code{,} (comma) characters. The commas
|
|
themselves are discarded. Please note what we said above about recursive
|
|
brace expressions. The commas used to separate the subexpressions must
|
|
be at the same level. Commas in brace subexpressions are not matched.
|
|
They are used during expansion of the brace expression of the deeper
|
|
level. The example below shows this
|
|
|
|
@smallexample
|
|
glob ("@{foo/@{,bar,biz@},baz@}", GLOB_BRACE, NULL, &result)
|
|
@end smallexample
|
|
|
|
@noindent
|
|
is equivalent to the sequence
|
|
|
|
@smallexample
|
|
glob ("foo/", GLOB_BRACE, NULL, &result)
|
|
glob ("foo/bar", GLOB_BRACE|GLOB_APPEND, NULL, &result)
|
|
glob ("foo/biz", GLOB_BRACE|GLOB_APPEND, NULL, &result)
|
|
glob ("baz", GLOB_BRACE|GLOB_APPEND, NULL, &result)
|
|
@end smallexample
|
|
|
|
@noindent
|
|
if we leave aside error handling.
|
|
|
|
@comment glob.h
|
|
@comment GNU
|
|
@item GLOB_NOMAGIC
|
|
If the pattern contains no wildcard constructs (it is a literal file name),
|
|
return it as the sole ``matching'' word, even if no file exists by that name.
|
|
|
|
@comment glob.h
|
|
@comment GNU
|
|
@item GLOB_TILDE
|
|
If this flag is used the character @code{~} (tilde) is handled special
|
|
if it appears at the beginning of the pattern. Instead of being taken
|
|
verbatim it is used to represent the home directory of a known user.
|
|
|
|
If @code{~} is the only character in pattern or it is followed by a
|
|
@code{/} (slash), the home directory of the process owner is
|
|
substituted. Using @code{getlogin} and @code{getpwnam} the information
|
|
is read from the system databases. As an example take user @code{bart}
|
|
with his home directory at @file{/home/bart}. For him a call like
|
|
|
|
@smallexample
|
|
glob ("~/bin/*", GLOB_TILDE, NULL, &result)
|
|
@end smallexample
|
|
|
|
@noindent
|
|
would return the contents of the directory @file{/home/bart/bin}.
|
|
Instead of referring to the own home directory it is also possible to
|
|
name the home directory of other users. To do so one has to append the
|
|
user name after the tilde character. So the contents of user
|
|
@code{homer}'s @file{bin} directory can be retrieved by
|
|
|
|
@smallexample
|
|
glob ("~homer/bin/*", GLOB_TILDE, NULL, &result)
|
|
@end smallexample
|
|
|
|
If the user name is not valid or the home directory cannot be determined
|
|
for some reason the pattern is left untouched and itself used as the
|
|
result. I.e., if in the last example @code{home} is not available the
|
|
tilde expansion yields to @code{"~homer/bin/*"} and @code{glob} is not
|
|
looking for a directory named @code{~homer}.
|
|
|
|
This functionality is equivalent to what is available in C-shells if the
|
|
@code{nonomatch} flag is set.
|
|
|
|
@comment glob.h
|
|
@comment GNU
|
|
@item GLOB_TILDE_CHECK
|
|
If this flag is used @code{glob} behaves like as if @code{GLOB_TILDE} is
|
|
given. The only difference is that if the user name is not available or
|
|
the home directory cannot be determined for other reasons this leads to
|
|
an error. @code{glob} will return @code{GLOB_NOMATCH} instead of using
|
|
the pattern itself as the name.
|
|
|
|
This functionality is equivalent to what is available in C-shells if
|
|
@code{nonomatch} flag is not set.
|
|
|
|
@comment glob.h
|
|
@comment GNU
|
|
@item GLOB_ONLYDIR
|
|
If this flag is used the globbing function takes this as a
|
|
@strong{hint} that the caller is only interested in directories
|
|
matching the pattern. If the information about the type of the file
|
|
is easily available non-directories will be rejected but no extra
|
|
work will be done to determine the information for each file. I.e.,
|
|
the caller must still be able to filter directories out.
|
|
|
|
This functionality is only available with the GNU @code{glob}
|
|
implementation. It is mainly used internally to increase the
|
|
performance but might be useful for a user as well and therefore is
|
|
documented here.
|
|
@end vtable
|
|
|
|
Calling @code{glob} will in most cases allocate resources which are used
|
|
to represent the result of the function call. If the same object of
|
|
type @code{glob_t} is used in multiple call to @code{glob} the resources
|
|
are freed or reused so that no leaks appear. But this does not include
|
|
the time when all @code{glob} calls are done.
|
|
|
|
@comment glob.h
|
|
@comment POSIX.2
|
|
@deftypefun void globfree (glob_t *@var{pglob})
|
|
The @code{globfree} function frees all resources allocated by previous
|
|
calls to @code{glob} associated with the object pointed to by
|
|
@var{pglob}. This function should be called whenever the currently used
|
|
@code{glob_t} typed object isn't used anymore.
|
|
@end deftypefun
|
|
|
|
@comment glob.h
|
|
@comment GNU
|
|
@deftypefun void globfree64 (glob64_t *@var{pglob})
|
|
This function is equivalent to @code{globfree} but it frees records of
|
|
type @code{glob64_t} which were allocated by @code{glob64}.
|
|
@end deftypefun
|
|
|
|
|
|
@node Regular Expressions
|
|
@section Regular Expression Matching
|
|
|
|
The GNU C library supports two interfaces for matching regular
|
|
expressions. One is the standard POSIX.2 interface, and the other is
|
|
what the GNU system has had for many years.
|
|
|
|
Both interfaces are declared in the header file @file{regex.h}.
|
|
If you define @w{@code{_POSIX_C_SOURCE}}, then only the POSIX.2
|
|
functions, structures, and constants are declared.
|
|
@c !!! we only document the POSIX.2 interface here!!
|
|
|
|
@menu
|
|
* POSIX Regexp Compilation:: Using @code{regcomp} to prepare to match.
|
|
* Flags for POSIX Regexps:: Syntax variations for @code{regcomp}.
|
|
* Matching POSIX Regexps:: Using @code{regexec} to match the compiled
|
|
pattern that you get from @code{regcomp}.
|
|
* Regexp Subexpressions:: Finding which parts of the string were matched.
|
|
* Subexpression Complications:: Find points of which parts were matched.
|
|
* Regexp Cleanup:: Freeing storage; reporting errors.
|
|
@end menu
|
|
|
|
@node POSIX Regexp Compilation
|
|
@subsection POSIX Regular Expression Compilation
|
|
|
|
Before you can actually match a regular expression, you must
|
|
@dfn{compile} it. This is not true compilation---it produces a special
|
|
data structure, not machine instructions. But it is like ordinary
|
|
compilation in that its purpose is to enable you to ``execute'' the
|
|
pattern fast. (@xref{Matching POSIX Regexps}, for how to use the
|
|
compiled regular expression for matching.)
|
|
|
|
There is a special data type for compiled regular expressions:
|
|
|
|
@comment regex.h
|
|
@comment POSIX.2
|
|
@deftp {Data Type} regex_t
|
|
This type of object holds a compiled regular expression.
|
|
It is actually a structure. It has just one field that your programs
|
|
should look at:
|
|
|
|
@table @code
|
|
@item re_nsub
|
|
This field holds the number of parenthetical subexpressions in the
|
|
regular expression that was compiled.
|
|
@end table
|
|
|
|
There are several other fields, but we don't describe them here, because
|
|
only the functions in the library should use them.
|
|
@end deftp
|
|
|
|
After you create a @code{regex_t} object, you can compile a regular
|
|
expression into it by calling @code{regcomp}.
|
|
|
|
@comment regex.h
|
|
@comment POSIX.2
|
|
@deftypefun int regcomp (regex_t *@var{compiled}, const char *@var{pattern}, int @var{cflags})
|
|
The function @code{regcomp} ``compiles'' a regular expression into a
|
|
data structure that you can use with @code{regexec} to match against a
|
|
string. The compiled regular expression format is designed for
|
|
efficient matching. @code{regcomp} stores it into @code{*@var{compiled}}.
|
|
|
|
It's up to you to allocate an object of type @code{regex_t} and pass its
|
|
address to @code{regcomp}.
|
|
|
|
The argument @var{cflags} lets you specify various options that control
|
|
the syntax and semantics of regular expressions. @xref{Flags for POSIX
|
|
Regexps}.
|
|
|
|
If you use the flag @code{REG_NOSUB}, then @code{regcomp} omits from
|
|
the compiled regular expression the information necessary to record
|
|
how subexpressions actually match. In this case, you might as well
|
|
pass @code{0} for the @var{matchptr} and @var{nmatch} arguments when
|
|
you call @code{regexec}.
|
|
|
|
If you don't use @code{REG_NOSUB}, then the compiled regular expression
|
|
does have the capacity to record how subexpressions match. Also,
|
|
@code{regcomp} tells you how many subexpressions @var{pattern} has, by
|
|
storing the number in @code{@var{compiled}->re_nsub}. You can use that
|
|
value to decide how long an array to allocate to hold information about
|
|
subexpression matches.
|
|
|
|
@code{regcomp} returns @code{0} if it succeeds in compiling the regular
|
|
expression; otherwise, it returns a nonzero error code (see the table
|
|
below). You can use @code{regerror} to produce an error message string
|
|
describing the reason for a nonzero value; see @ref{Regexp Cleanup}.
|
|
|
|
@end deftypefun
|
|
|
|
Here are the possible nonzero values that @code{regcomp} can return:
|
|
|
|
@table @code
|
|
@comment regex.h
|
|
@comment POSIX.2
|
|
@item REG_BADBR
|
|
There was an invalid @samp{\@{@dots{}\@}} construct in the regular
|
|
expression. A valid @samp{\@{@dots{}\@}} construct must contain either
|
|
a single number, or two numbers in increasing order separated by a
|
|
comma.
|
|
|
|
@comment regex.h
|
|
@comment POSIX.2
|
|
@item REG_BADPAT
|
|
There was a syntax error in the regular expression.
|
|
|
|
@comment regex.h
|
|
@comment POSIX.2
|
|
@item REG_BADRPT
|
|
A repetition operator such as @samp{?} or @samp{*} appeared in a bad
|
|
position (with no preceding subexpression to act on).
|
|
|
|
@comment regex.h
|
|
@comment POSIX.2
|
|
@item REG_ECOLLATE
|
|
The regular expression referred to an invalid collating element (one not
|
|
defined in the current locale for string collation). @xref{Locale
|
|
Categories}.
|
|
|
|
@comment regex.h
|
|
@comment POSIX.2
|
|
@item REG_ECTYPE
|
|
The regular expression referred to an invalid character class name.
|
|
|
|
@comment regex.h
|
|
@comment POSIX.2
|
|
@item REG_EESCAPE
|
|
The regular expression ended with @samp{\}.
|
|
|
|
@comment regex.h
|
|
@comment POSIX.2
|
|
@item REG_ESUBREG
|
|
There was an invalid number in the @samp{\@var{digit}} construct.
|
|
|
|
@comment regex.h
|
|
@comment POSIX.2
|
|
@item REG_EBRACK
|
|
There were unbalanced square brackets in the regular expression.
|
|
|
|
@comment regex.h
|
|
@comment POSIX.2
|
|
@item REG_EPAREN
|
|
An extended regular expression had unbalanced parentheses,
|
|
or a basic regular expression had unbalanced @samp{\(} and @samp{\)}.
|
|
|
|
@comment regex.h
|
|
@comment POSIX.2
|
|
@item REG_EBRACE
|
|
The regular expression had unbalanced @samp{\@{} and @samp{\@}}.
|
|
|
|
@comment regex.h
|
|
@comment POSIX.2
|
|
@item REG_ERANGE
|
|
One of the endpoints in a range expression was invalid.
|
|
|
|
@comment regex.h
|
|
@comment POSIX.2
|
|
@item REG_ESPACE
|
|
@code{regcomp} ran out of memory.
|
|
@end table
|
|
|
|
@node Flags for POSIX Regexps
|
|
@subsection Flags for POSIX Regular Expressions
|
|
|
|
These are the bit flags that you can use in the @var{cflags} operand when
|
|
compiling a regular expression with @code{regcomp}.
|
|
|
|
@table @code
|
|
@comment regex.h
|
|
@comment POSIX.2
|
|
@item REG_EXTENDED
|
|
Treat the pattern as an extended regular expression, rather than as a
|
|
basic regular expression.
|
|
|
|
@comment regex.h
|
|
@comment POSIX.2
|
|
@item REG_ICASE
|
|
Ignore case when matching letters.
|
|
|
|
@comment regex.h
|
|
@comment POSIX.2
|
|
@item REG_NOSUB
|
|
Don't bother storing the contents of the @var{matches-ptr} array.
|
|
|
|
@comment regex.h
|
|
@comment POSIX.2
|
|
@item REG_NEWLINE
|
|
Treat a newline in @var{string} as dividing @var{string} into multiple
|
|
lines, so that @samp{$} can match before the newline and @samp{^} can
|
|
match after. Also, don't permit @samp{.} to match a newline, and don't
|
|
permit @samp{[^@dots{}]} to match a newline.
|
|
|
|
Otherwise, newline acts like any other ordinary character.
|
|
@end table
|
|
|
|
@node Matching POSIX Regexps
|
|
@subsection Matching a Compiled POSIX Regular Expression
|
|
|
|
Once you have compiled a regular expression, as described in @ref{POSIX
|
|
Regexp Compilation}, you can match it against strings using
|
|
@code{regexec}. A match anywhere inside the string counts as success,
|
|
unless the regular expression contains anchor characters (@samp{^} or
|
|
@samp{$}).
|
|
|
|
@comment regex.h
|
|
@comment POSIX.2
|
|
@deftypefun int regexec (regex_t *@var{compiled}, char *@var{string}, size_t @var{nmatch}, regmatch_t @var{matchptr} @t{[]}, int @var{eflags})
|
|
This function tries to match the compiled regular expression
|
|
@code{*@var{compiled}} against @var{string}.
|
|
|
|
@code{regexec} returns @code{0} if the regular expression matches;
|
|
otherwise, it returns a nonzero value. See the table below for
|
|
what nonzero values mean. You can use @code{regerror} to produce an
|
|
error message string describing the reason for a nonzero value;
|
|
see @ref{Regexp Cleanup}.
|
|
|
|
The argument @var{eflags} is a word of bit flags that enable various
|
|
options.
|
|
|
|
If you want to get information about what part of @var{string} actually
|
|
matched the regular expression or its subexpressions, use the arguments
|
|
@var{matchptr} and @var{nmatch}. Otherwise, pass @code{0} for
|
|
@var{nmatch}, and @code{NULL} for @var{matchptr}. @xref{Regexp
|
|
Subexpressions}.
|
|
@end deftypefun
|
|
|
|
You must match the regular expression with the same set of current
|
|
locales that were in effect when you compiled the regular expression.
|
|
|
|
The function @code{regexec} accepts the following flags in the
|
|
@var{eflags} argument:
|
|
|
|
@table @code
|
|
@comment regex.h
|
|
@comment POSIX.2
|
|
@item REG_NOTBOL
|
|
Do not regard the beginning of the specified string as the beginning of
|
|
a line; more generally, don't make any assumptions about what text might
|
|
precede it.
|
|
|
|
@comment regex.h
|
|
@comment POSIX.2
|
|
@item REG_NOTEOL
|
|
Do not regard the end of the specified string as the end of a line; more
|
|
generally, don't make any assumptions about what text might follow it.
|
|
@end table
|
|
|
|
Here are the possible nonzero values that @code{regexec} can return:
|
|
|
|
@table @code
|
|
@comment regex.h
|
|
@comment POSIX.2
|
|
@item REG_NOMATCH
|
|
The pattern didn't match the string. This isn't really an error.
|
|
|
|
@comment regex.h
|
|
@comment POSIX.2
|
|
@item REG_ESPACE
|
|
@code{regexec} ran out of memory.
|
|
@end table
|
|
|
|
@node Regexp Subexpressions
|
|
@subsection Match Results with Subexpressions
|
|
|
|
When @code{regexec} matches parenthetical subexpressions of
|
|
@var{pattern}, it records which parts of @var{string} they match. It
|
|
returns that information by storing the offsets into an array whose
|
|
elements are structures of type @code{regmatch_t}. The first element of
|
|
the array (index @code{0}) records the part of the string that matched
|
|
the entire regular expression. Each other element of the array records
|
|
the beginning and end of the part that matched a single parenthetical
|
|
subexpression.
|
|
|
|
@comment regex.h
|
|
@comment POSIX.2
|
|
@deftp {Data Type} regmatch_t
|
|
This is the data type of the @var{matcharray} array that you pass to
|
|
@code{regexec}. It contains two structure fields, as follows:
|
|
|
|
@table @code
|
|
@item rm_so
|
|
The offset in @var{string} of the beginning of a substring. Add this
|
|
value to @var{string} to get the address of that part.
|
|
|
|
@item rm_eo
|
|
The offset in @var{string} of the end of the substring.
|
|
@end table
|
|
@end deftp
|
|
|
|
@comment regex.h
|
|
@comment POSIX.2
|
|
@deftp {Data Type} regoff_t
|
|
@code{regoff_t} is an alias for another signed integer type.
|
|
The fields of @code{regmatch_t} have type @code{regoff_t}.
|
|
@end deftp
|
|
|
|
The @code{regmatch_t} elements correspond to subexpressions
|
|
positionally; the first element (index @code{1}) records where the first
|
|
subexpression matched, the second element records the second
|
|
subexpression, and so on. The order of the subexpressions is the order
|
|
in which they begin.
|
|
|
|
When you call @code{regexec}, you specify how long the @var{matchptr}
|
|
array is, with the @var{nmatch} argument. This tells @code{regexec} how
|
|
many elements to store. If the actual regular expression has more than
|
|
@var{nmatch} subexpressions, then you won't get offset information about
|
|
the rest of them. But this doesn't alter whether the pattern matches a
|
|
particular string or not.
|
|
|
|
If you don't want @code{regexec} to return any information about where
|
|
the subexpressions matched, you can either supply @code{0} for
|
|
@var{nmatch}, or use the flag @code{REG_NOSUB} when you compile the
|
|
pattern with @code{regcomp}.
|
|
|
|
@node Subexpression Complications
|
|
@subsection Complications in Subexpression Matching
|
|
|
|
Sometimes a subexpression matches a substring of no characters. This
|
|
happens when @samp{f\(o*\)} matches the string @samp{fum}. (It really
|
|
matches just the @samp{f}.) In this case, both of the offsets identify
|
|
the point in the string where the null substring was found. In this
|
|
example, the offsets are both @code{1}.
|
|
|
|
Sometimes the entire regular expression can match without using some of
|
|
its subexpressions at all---for example, when @samp{ba\(na\)*} matches the
|
|
string @samp{ba}, the parenthetical subexpression is not used. When
|
|
this happens, @code{regexec} stores @code{-1} in both fields of the
|
|
element for that subexpression.
|
|
|
|
Sometimes matching the entire regular expression can match a particular
|
|
subexpression more than once---for example, when @samp{ba\(na\)*}
|
|
matches the string @samp{bananana}, the parenthetical subexpression
|
|
matches three times. When this happens, @code{regexec} usually stores
|
|
the offsets of the last part of the string that matched the
|
|
subexpression. In the case of @samp{bananana}, these offsets are
|
|
@code{6} and @code{8}.
|
|
|
|
But the last match is not always the one that is chosen. It's more
|
|
accurate to say that the last @emph{opportunity} to match is the one
|
|
that takes precedence. What this means is that when one subexpression
|
|
appears within another, then the results reported for the inner
|
|
subexpression reflect whatever happened on the last match of the outer
|
|
subexpression. For an example, consider @samp{\(ba\(na\)*s \)*} matching
|
|
the string @samp{bananas bas }. The last time the inner expression
|
|
actually matches is near the end of the first word. But it is
|
|
@emph{considered} again in the second word, and fails to match there.
|
|
@code{regexec} reports nonuse of the ``na'' subexpression.
|
|
|
|
Another place where this rule applies is when the regular expression
|
|
@smallexample
|
|
\(ba\(na\)*s \|nefer\(ti\)* \)*
|
|
@end smallexample
|
|
@noindent
|
|
matches @samp{bananas nefertiti}. The ``na'' subexpression does match
|
|
in the first word, but it doesn't match in the second word because the
|
|
other alternative is used there. Once again, the second repetition of
|
|
the outer subexpression overrides the first, and within that second
|
|
repetition, the ``na'' subexpression is not used. So @code{regexec}
|
|
reports nonuse of the ``na'' subexpression.
|
|
|
|
@node Regexp Cleanup
|
|
@subsection POSIX Regexp Matching Cleanup
|
|
|
|
When you are finished using a compiled regular expression, you can
|
|
free the storage it uses by calling @code{regfree}.
|
|
|
|
@comment regex.h
|
|
@comment POSIX.2
|
|
@deftypefun void regfree (regex_t *@var{compiled})
|
|
Calling @code{regfree} frees all the storage that @code{*@var{compiled}}
|
|
points to. This includes various internal fields of the @code{regex_t}
|
|
structure that aren't documented in this manual.
|
|
|
|
@code{regfree} does not free the object @code{*@var{compiled}} itself.
|
|
@end deftypefun
|
|
|
|
You should always free the space in a @code{regex_t} structure with
|
|
@code{regfree} before using the structure to compile another regular
|
|
expression.
|
|
|
|
When @code{regcomp} or @code{regexec} reports an error, you can use
|
|
the function @code{regerror} to turn it into an error message string.
|
|
|
|
@comment regex.h
|
|
@comment POSIX.2
|
|
@deftypefun size_t regerror (int @var{errcode}, regex_t *@var{compiled}, char *@var{buffer}, size_t @var{length})
|
|
This function produces an error message string for the error code
|
|
@var{errcode}, and stores the string in @var{length} bytes of memory
|
|
starting at @var{buffer}. For the @var{compiled} argument, supply the
|
|
same compiled regular expression structure that @code{regcomp} or
|
|
@code{regexec} was working with when it got the error. Alternatively,
|
|
you can supply @code{NULL} for @var{compiled}; you will still get a
|
|
meaningful error message, but it might not be as detailed.
|
|
|
|
If the error message can't fit in @var{length} bytes (including a
|
|
terminating null character), then @code{regerror} truncates it.
|
|
The string that @code{regerror} stores is always null-terminated
|
|
even if it has been truncated.
|
|
|
|
The return value of @code{regerror} is the minimum length needed to
|
|
store the entire error message. If this is less than @var{length}, then
|
|
the error message was not truncated, and you can use it. Otherwise, you
|
|
should call @code{regerror} again with a larger buffer.
|
|
|
|
Here is a function which uses @code{regerror}, but always dynamically
|
|
allocates a buffer for the error message:
|
|
|
|
@smallexample
|
|
char *get_regerror (int errcode, regex_t *compiled)
|
|
@{
|
|
size_t length = regerror (errcode, compiled, NULL, 0);
|
|
char *buffer = xmalloc (length);
|
|
(void) regerror (errcode, compiled, buffer, length);
|
|
return buffer;
|
|
@}
|
|
@end smallexample
|
|
@end deftypefun
|
|
|
|
@node Word Expansion
|
|
@section Shell-Style Word Expansion
|
|
@cindex word expansion
|
|
@cindex expansion of shell words
|
|
|
|
@dfn{Word expansion} means the process of splitting a string into
|
|
@dfn{words} and substituting for variables, commands, and wildcards
|
|
just as the shell does.
|
|
|
|
For example, when you write @samp{ls -l foo.c}, this string is split
|
|
into three separate words---@samp{ls}, @samp{-l} and @samp{foo.c}.
|
|
This is the most basic function of word expansion.
|
|
|
|
When you write @samp{ls *.c}, this can become many words, because
|
|
the word @samp{*.c} can be replaced with any number of file names.
|
|
This is called @dfn{wildcard expansion}, and it is also a part of
|
|
word expansion.
|
|
|
|
When you use @samp{echo $PATH} to print your path, you are taking
|
|
advantage of @dfn{variable substitution}, which is also part of word
|
|
expansion.
|
|
|
|
Ordinary programs can perform word expansion just like the shell by
|
|
calling the library function @code{wordexp}.
|
|
|
|
@menu
|
|
* Expansion Stages:: What word expansion does to a string.
|
|
* Calling Wordexp:: How to call @code{wordexp}.
|
|
* Flags for Wordexp:: Options you can enable in @code{wordexp}.
|
|
* Wordexp Example:: A sample program that does word expansion.
|
|
* Tilde Expansion:: Details of how tilde expansion works.
|
|
* Variable Substitution:: Different types of variable substitution.
|
|
@end menu
|
|
|
|
@node Expansion Stages
|
|
@subsection The Stages of Word Expansion
|
|
|
|
When word expansion is applied to a sequence of words, it performs the
|
|
following transformations in the order shown here:
|
|
|
|
@enumerate
|
|
@item
|
|
@cindex tilde expansion
|
|
@dfn{Tilde expansion}: Replacement of @samp{~foo} with the name of
|
|
the home directory of @samp{foo}.
|
|
|
|
@item
|
|
Next, three different transformations are applied in the same step,
|
|
from left to right:
|
|
|
|
@itemize @bullet
|
|
@item
|
|
@cindex variable substitution
|
|
@cindex substitution of variables and commands
|
|
@dfn{Variable substitution}: Environment variables are substituted for
|
|
references such as @samp{$foo}.
|
|
|
|
@item
|
|
@cindex command substitution
|
|
@dfn{Command substitution}: Constructs such as @w{@samp{`cat foo`}} and
|
|
the equivalent @w{@samp{$(cat foo)}} are replaced with the output from
|
|
the inner command.
|
|
|
|
@item
|
|
@cindex arithmetic expansion
|
|
@dfn{Arithmetic expansion}: Constructs such as @samp{$(($x-1))} are
|
|
replaced with the result of the arithmetic computation.
|
|
@end itemize
|
|
|
|
@item
|
|
@cindex field splitting
|
|
@dfn{Field splitting}: subdivision of the text into @dfn{words}.
|
|
|
|
@item
|
|
@cindex wildcard expansion
|
|
@dfn{Wildcard expansion}: The replacement of a construct such as @samp{*.c}
|
|
with a list of @samp{.c} file names. Wildcard expansion applies to an
|
|
entire word at a time, and replaces that word with 0 or more file names
|
|
that are themselves words.
|
|
|
|
@item
|
|
@cindex quote removal
|
|
@cindex removal of quotes
|
|
@dfn{Quote removal}: The deletion of string-quotes, now that they have
|
|
done their job by inhibiting the above transformations when appropriate.
|
|
@end enumerate
|
|
|
|
For the details of these transformations, and how to write the constructs
|
|
that use them, see @w{@cite{The BASH Manual}} (to appear).
|
|
|
|
@node Calling Wordexp
|
|
@subsection Calling @code{wordexp}
|
|
|
|
All the functions, constants and data types for word expansion are
|
|
declared in the header file @file{wordexp.h}.
|
|
|
|
Word expansion produces a vector of words (strings). To return this
|
|
vector, @code{wordexp} uses a special data type, @code{wordexp_t}, which
|
|
is a structure. You pass @code{wordexp} the address of the structure,
|
|
and it fills in the structure's fields to tell you about the results.
|
|
|
|
@comment wordexp.h
|
|
@comment POSIX.2
|
|
@deftp {Data Type} {wordexp_t}
|
|
This data type holds a pointer to a word vector. More precisely, it
|
|
records both the address of the word vector and its size.
|
|
|
|
@table @code
|
|
@item we_wordc
|
|
The number of elements in the vector.
|
|
|
|
@item we_wordv
|
|
The address of the vector. This field has type @w{@code{char **}}.
|
|
|
|
@item we_offs
|
|
The offset of the first real element of the vector, from its nominal
|
|
address in the @code{we_wordv} field. Unlike the other fields, this
|
|
is always an input to @code{wordexp}, rather than an output from it.
|
|
|
|
If you use a nonzero offset, then that many elements at the beginning of
|
|
the vector are left empty. (The @code{wordexp} function fills them with
|
|
null pointers.)
|
|
|
|
The @code{we_offs} field is meaningful only if you use the
|
|
@code{WRDE_DOOFFS} flag. Otherwise, the offset is always zero
|
|
regardless of what is in this field, and the first real element comes at
|
|
the beginning of the vector.
|
|
@end table
|
|
@end deftp
|
|
|
|
@comment wordexp.h
|
|
@comment POSIX.2
|
|
@deftypefun int wordexp (const char *@var{words}, wordexp_t *@var{word-vector-ptr}, int @var{flags})
|
|
Perform word expansion on the string @var{words}, putting the result in
|
|
a newly allocated vector, and store the size and address of this vector
|
|
into @code{*@var{word-vector-ptr}}. The argument @var{flags} is a
|
|
combination of bit flags; see @ref{Flags for Wordexp}, for details of
|
|
the flags.
|
|
|
|
You shouldn't use any of the characters @samp{|&;<>} in the string
|
|
@var{words} unless they are quoted; likewise for newline. If you use
|
|
these characters unquoted, you will get the @code{WRDE_BADCHAR} error
|
|
code. Don't use parentheses or braces unless they are quoted or part of
|
|
a word expansion construct. If you use quotation characters @samp{'"`},
|
|
they should come in pairs that balance.
|
|
|
|
The results of word expansion are a sequence of words. The function
|
|
@code{wordexp} allocates a string for each resulting word, then
|
|
allocates a vector of type @code{char **} to store the addresses of
|
|
these strings. The last element of the vector is a null pointer.
|
|
This vector is called the @dfn{word vector}.
|
|
|
|
To return this vector, @code{wordexp} stores both its address and its
|
|
length (number of elements, not counting the terminating null pointer)
|
|
into @code{*@var{word-vector-ptr}}.
|
|
|
|
If @code{wordexp} succeeds, it returns 0. Otherwise, it returns one
|
|
of these error codes:
|
|
|
|
@table @code
|
|
@comment wordexp.h
|
|
@comment POSIX.2
|
|
@item WRDE_BADCHAR
|
|
The input string @var{words} contains an unquoted invalid character such
|
|
as @samp{|}.
|
|
|
|
@comment wordexp.h
|
|
@comment POSIX.2
|
|
@item WRDE_BADVAL
|
|
The input string refers to an undefined shell variable, and you used the flag
|
|
@code{WRDE_UNDEF} to forbid such references.
|
|
|
|
@comment wordexp.h
|
|
@comment POSIX.2
|
|
@item WRDE_CMDSUB
|
|
The input string uses command substitution, and you used the flag
|
|
@code{WRDE_NOCMD} to forbid command substitution.
|
|
|
|
@comment wordexp.h
|
|
@comment POSIX.2
|
|
@item WRDE_NOSPACE
|
|
It was impossible to allocate memory to hold the result. In this case,
|
|
@code{wordexp} can store part of the results---as much as it could
|
|
allocate room for.
|
|
|
|
@comment wordexp.h
|
|
@comment POSIX.2
|
|
@item WRDE_SYNTAX
|
|
There was a syntax error in the input string. For example, an unmatched
|
|
quoting character is a syntax error.
|
|
@end table
|
|
@end deftypefun
|
|
|
|
@comment wordexp.h
|
|
@comment POSIX.2
|
|
@deftypefun void wordfree (wordexp_t *@var{word-vector-ptr})
|
|
Free the storage used for the word-strings and vector that
|
|
@code{*@var{word-vector-ptr}} points to. This does not free the
|
|
structure @code{*@var{word-vector-ptr}} itself---only the other
|
|
data it points to.
|
|
@end deftypefun
|
|
|
|
@node Flags for Wordexp
|
|
@subsection Flags for Word Expansion
|
|
|
|
This section describes the flags that you can specify in the
|
|
@var{flags} argument to @code{wordexp}. Choose the flags you want,
|
|
and combine them with the C operator @code{|}.
|
|
|
|
@table @code
|
|
@comment wordexp.h
|
|
@comment POSIX.2
|
|
@item WRDE_APPEND
|
|
Append the words from this expansion to the vector of words produced by
|
|
previous calls to @code{wordexp}. This way you can effectively expand
|
|
several words as if they were concatenated with spaces between them.
|
|
|
|
In order for appending to work, you must not modify the contents of the
|
|
word vector structure between calls to @code{wordexp}. And, if you set
|
|
@code{WRDE_DOOFFS} in the first call to @code{wordexp}, you must also
|
|
set it when you append to the results.
|
|
|
|
@comment wordexp.h
|
|
@comment POSIX.2
|
|
@item WRDE_DOOFFS
|
|
Leave blank slots at the beginning of the vector of words.
|
|
The @code{we_offs} field says how many slots to leave.
|
|
The blank slots contain null pointers.
|
|
|
|
@comment wordexp.h
|
|
@comment POSIX.2
|
|
@item WRDE_NOCMD
|
|
Don't do command substitution; if the input requests command substitution,
|
|
report an error.
|
|
|
|
@comment wordexp.h
|
|
@comment POSIX.2
|
|
@item WRDE_REUSE
|
|
Reuse a word vector made by a previous call to @code{wordexp}.
|
|
Instead of allocating a new vector of words, this call to @code{wordexp}
|
|
will use the vector that already exists (making it larger if necessary).
|
|
|
|
Note that the vector may move, so it is not safe to save an old pointer
|
|
and use it again after calling @code{wordexp}. You must fetch
|
|
@code{we_pathv} anew after each call.
|
|
|
|
@comment wordexp.h
|
|
@comment POSIX.2
|
|
@item WRDE_SHOWERR
|
|
Do show any error messages printed by commands run by command substitution.
|
|
More precisely, allow these commands to inherit the standard error output
|
|
stream of the current process. By default, @code{wordexp} gives these
|
|
commands a standard error stream that discards all output.
|
|
|
|
@comment wordexp.h
|
|
@comment POSIX.2
|
|
@item WRDE_UNDEF
|
|
If the input refers to a shell variable that is not defined, report an
|
|
error.
|
|
@end table
|
|
|
|
@node Wordexp Example
|
|
@subsection @code{wordexp} Example
|
|
|
|
Here is an example of using @code{wordexp} to expand several strings
|
|
and use the results to run a shell command. It also shows the use of
|
|
@code{WRDE_APPEND} to concatenate the expansions and of @code{wordfree}
|
|
to free the space allocated by @code{wordexp}.
|
|
|
|
@smallexample
|
|
int
|
|
expand_and_execute (const char *program, const char **options)
|
|
@{
|
|
wordexp_t result;
|
|
pid_t pid
|
|
int status, i;
|
|
|
|
/* @r{Expand the string for the program to run.} */
|
|
switch (wordexp (program, &result, 0))
|
|
@{
|
|
case 0: /* @r{Successful}. */
|
|
break;
|
|
case WRDE_NOSPACE:
|
|
/* @r{If the error was @code{WRDE_NOSPACE},}
|
|
@r{then perhaps part of the result was allocated.} */
|
|
wordfree (&result);
|
|
default: /* @r{Some other error.} */
|
|
return -1;
|
|
@}
|
|
|
|
/* @r{Expand the strings specified for the arguments.} */
|
|
for (i = 0; options[i] != NULL; i++)
|
|
@{
|
|
if (wordexp (options[i], &result, WRDE_APPEND))
|
|
@{
|
|
wordfree (&result);
|
|
return -1;
|
|
@}
|
|
@}
|
|
|
|
pid = fork ();
|
|
if (pid == 0)
|
|
@{
|
|
/* @r{This is the child process. Execute the command.} */
|
|
execv (result.we_wordv[0], result.we_wordv);
|
|
exit (EXIT_FAILURE);
|
|
@}
|
|
else if (pid < 0)
|
|
/* @r{The fork failed. Report failure.} */
|
|
status = -1;
|
|
else
|
|
/* @r{This is the parent process. Wait for the child to complete.} */
|
|
if (waitpid (pid, &status, 0) != pid)
|
|
status = -1;
|
|
|
|
wordfree (&result);
|
|
return status;
|
|
@}
|
|
@end smallexample
|
|
|
|
@node Tilde Expansion
|
|
@subsection Details of Tilde Expansion
|
|
|
|
It's a standard part of shell syntax that you can use @samp{~} at the
|
|
beginning of a file name to stand for your own home directory. You
|
|
can use @samp{~@var{user}} to stand for @var{user}'s home directory.
|
|
|
|
@dfn{Tilde expansion} is the process of converting these abbreviations
|
|
to the directory names that they stand for.
|
|
|
|
Tilde expansion applies to the @samp{~} plus all following characters up
|
|
to whitespace or a slash. It takes place only at the beginning of a
|
|
word, and only if none of the characters to be transformed is quoted in
|
|
any way.
|
|
|
|
Plain @samp{~} uses the value of the environment variable @code{HOME}
|
|
as the proper home directory name. @samp{~} followed by a user name
|
|
uses @code{getpwname} to look up that user in the user database, and
|
|
uses whatever directory is recorded there. Thus, @samp{~} followed
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by your own name can give different results from plain @samp{~}, if
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the value of @code{HOME} is not really your home directory.
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@node Variable Substitution
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@subsection Details of Variable Substitution
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Part of ordinary shell syntax is the use of @samp{$@var{variable}} to
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substitute the value of a shell variable into a command. This is called
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@dfn{variable substitution}, and it is one part of doing word expansion.
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There are two basic ways you can write a variable reference for
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substitution:
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@table @code
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|
@item $@{@var{variable}@}
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If you write braces around the variable name, then it is completely
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|
unambiguous where the variable name ends. You can concatenate
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|
additional letters onto the end of the variable value by writing them
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|
immediately after the close brace. For example, @samp{$@{foo@}s}
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|
expands into @samp{tractors}.
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@item $@var{variable}
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If you do not put braces around the variable name, then the variable
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|
name consists of all the alphanumeric characters and underscores that
|
|
follow the @samp{$}. The next punctuation character ends the variable
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|
name. Thus, @samp{$foo-bar} refers to the variable @code{foo} and expands
|
|
into @samp{tractor-bar}.
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@end table
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When you use braces, you can also use various constructs to modify the
|
|
value that is substituted, or test it in various ways.
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|
@table @code
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|
@item $@{@var{variable}:-@var{default}@}
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|
Substitute the value of @var{variable}, but if that is empty or
|
|
undefined, use @var{default} instead.
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|
|
|
@item $@{@var{variable}:=@var{default}@}
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|
Substitute the value of @var{variable}, but if that is empty or
|
|
undefined, use @var{default} instead and set the variable to
|
|
@var{default}.
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|
|
@item $@{@var{variable}:?@var{message}@}
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|
If @var{variable} is defined and not empty, substitute its value.
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|
|
|
Otherwise, print @var{message} as an error message on the standard error
|
|
stream, and consider word expansion a failure.
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|
|
|
@c ??? How does wordexp report such an error?
|
|
@c WRDE_BADVAL is returned.
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|
|
|
@item $@{@var{variable}:+@var{replacement}@}
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|
Substitute @var{replacement}, but only if @var{variable} is defined and
|
|
nonempty. Otherwise, substitute nothing for this construct.
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|
@end table
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|
|
|
@table @code
|
|
@item $@{#@var{variable}@}
|
|
Substitute a numeral which expresses in base ten the number of
|
|
characters in the value of @var{variable}. @samp{$@{#foo@}} stands for
|
|
@samp{7}, because @samp{tractor} is seven characters.
|
|
@end table
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|
|
|
These variants of variable substitution let you remove part of the
|
|
variable's value before substituting it. The @var{prefix} and
|
|
@var{suffix} are not mere strings; they are wildcard patterns, just
|
|
like the patterns that you use to match multiple file names. But
|
|
in this context, they match against parts of the variable value
|
|
rather than against file names.
|
|
|
|
@table @code
|
|
@item $@{@var{variable}%%@var{suffix}@}
|
|
Substitute the value of @var{variable}, but first discard from that
|
|
variable any portion at the end that matches the pattern @var{suffix}.
|
|
|
|
If there is more than one alternative for how to match against
|
|
@var{suffix}, this construct uses the longest possible match.
|
|
|
|
Thus, @samp{$@{foo%%r*@}} substitutes @samp{t}, because the largest
|
|
match for @samp{r*} at the end of @samp{tractor} is @samp{ractor}.
|
|
|
|
@item $@{@var{variable}%@var{suffix}@}
|
|
Substitute the value of @var{variable}, but first discard from that
|
|
variable any portion at the end that matches the pattern @var{suffix}.
|
|
|
|
If there is more than one alternative for how to match against
|
|
@var{suffix}, this construct uses the shortest possible alternative.
|
|
|
|
Thus, @samp{$@{foo%r*@}} substitutes @samp{tracto}, because the shortest
|
|
match for @samp{r*} at the end of @samp{tractor} is just @samp{r}.
|
|
|
|
@item $@{@var{variable}##@var{prefix}@}
|
|
Substitute the value of @var{variable}, but first discard from that
|
|
variable any portion at the beginning that matches the pattern @var{prefix}.
|
|
|
|
If there is more than one alternative for how to match against
|
|
@var{prefix}, this construct uses the longest possible match.
|
|
|
|
Thus, @samp{$@{foo##*t@}} substitutes @samp{or}, because the largest
|
|
match for @samp{*t} at the beginning of @samp{tractor} is @samp{tract}.
|
|
|
|
@item $@{@var{variable}#@var{prefix}@}
|
|
Substitute the value of @var{variable}, but first discard from that
|
|
variable any portion at the beginning that matches the pattern @var{prefix}.
|
|
|
|
If there is more than one alternative for how to match against
|
|
@var{prefix}, this construct uses the shortest possible alternative.
|
|
|
|
Thus, @samp{$@{foo#*t@}} substitutes @samp{ractor}, because the shortest
|
|
match for @samp{*t} at the beginning of @samp{tractor} is just @samp{t}.
|
|
|
|
@end table
|