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|
.rn '' }`
''' $Header: perl.man,v 4.0 91/03/20 01:38:08 lwall Locked $
'''
''' $Log: perl.man,v $
''' Revision 4.0 91/03/20 01:38:08 lwall
''' 4.0 baseline.
'''
'''
.de Sh
.br
.ne 5
.PP
\fB\\$1\fR
.PP
..
.de Sp
.if t .sp .5v
.if n .sp
..
.de Ip
.br
.ie \\n(.$>=3 .ne \\$3
.el .ne 3
.IP "\\$1" \\$2
..
'''
''' Set up \*(-- to give an unbreakable dash;
''' string Tr holds user defined translation string.
''' Bell System Logo is used as a dummy character.
'''
.tr \(*W-|\(bv\*(Tr
.ie n \{\
.ds -- \(*W-
.if (\n(.H=4u)&(1m=24u) .ds -- \(*W\h'-12u'\(*W\h'-12u'-\" diablo 10 pitch
.if (\n(.H=4u)&(1m=20u) .ds -- \(*W\h'-12u'\(*W\h'-8u'-\" diablo 12 pitch
.ds L" ""
.ds R" ""
.ds L' '
.ds R' '
'br\}
.el\{\
.ds -- \(em\|
.tr \*(Tr
.ds L" ``
.ds R" ''
.ds L' `
.ds R' '
'br\}
.TH PERL 1 "\*(RP"
.UC
.SH NAME
perl \- Practical Extraction and Report Language
.SH SYNOPSIS
.B perl
[options] filename args
.SH DESCRIPTION
.I Perl
is an interpreted language optimized for scanning arbitrary text files,
extracting information from those text files, and printing reports based
on that information.
It's also a good language for many system management tasks.
The language is intended to be practical (easy to use, efficient, complete)
rather than beautiful (tiny, elegant, minimal).
It combines (in the author's opinion, anyway) some of the best features of C,
\fIsed\fR, \fIawk\fR, and \fIsh\fR,
so people familiar with those languages should have little difficulty with it.
(Language historians will also note some vestiges of \fIcsh\fR, Pascal, and
even BASIC-PLUS.)
Expression syntax corresponds quite closely to C expression syntax.
Unlike most Unix utilities,
.I perl
does not arbitrarily limit the size of your data\*(--if you've got
the memory,
.I perl
can slurp in your whole file as a single string.
Recursion is of unlimited depth.
And the hash tables used by associative arrays grow as necessary to prevent
degraded performance.
.I Perl
uses sophisticated pattern matching techniques to scan large amounts of
data very quickly.
Although optimized for scanning text,
.I perl
can also deal with binary data, and can make dbm files look like associative
arrays (where dbm is available).
Setuid
.I perl
scripts are safer than C programs
through a dataflow tracing mechanism which prevents many stupid security holes.
If you have a problem that would ordinarily use \fIsed\fR
or \fIawk\fR or \fIsh\fR, but it
exceeds their capabilities or must run a little faster,
and you don't want to write the silly thing in C, then
.I perl
may be for you.
There are also translators to turn your
.I sed
and
.I awk
scripts into
.I perl
scripts.
OK, enough hype.
.PP
Upon startup,
.I perl
looks for your script in one of the following places:
.Ip 1. 4 2
Specified line by line via
.B \-e
switches on the command line.
.Ip 2. 4 2
Contained in the file specified by the first filename on the command line.
(Note that systems supporting the #! notation invoke interpreters this way.)
.Ip 3. 4 2
Passed in implicitly via standard input.
This only works if there are no filename arguments\*(--to pass
arguments to a
.I stdin
script you must explicitly specify a \- for the script name.
.PP
After locating your script,
.I perl
compiles it to an internal form.
If the script is syntactically correct, it is executed.
.Sh "Options"
Note: on first reading this section may not make much sense to you. It's here
at the front for easy reference.
.PP
A single-character option may be combined with the following option, if any.
This is particularly useful when invoking a script using the #! construct which
only allows one argument. Example:
.nf
.ne 2
#!/usr/bin/perl \-spi.bak # same as \-s \-p \-i.bak
.\|.\|.
.fi
Options include:
.TP 5
.BI \-0 digits
specifies the record separator ($/) as an octal number.
If there are no digits, the null character is the separator.
Other switches may precede or follow the digits.
For example, if you have a version of
.I find
which can print filenames terminated by the null character, you can say this:
.nf
find . \-name '*.bak' \-print0 | perl \-n0e unlink
.fi
The special value 00 will cause Perl to slurp files in paragraph mode.
The value 0777 will cause Perl to slurp files whole since there is no
legal character with that value.
.TP 5
.B \-a
turns on autosplit mode when used with a
.B \-n
or
.BR \-p .
An implicit split command to the @F array
is done as the first thing inside the implicit while loop produced by
the
.B \-n
or
.BR \-p .
.nf
perl \-ane \'print pop(@F), "\en";\'
is equivalent to
while (<>) {
@F = split(\' \');
print pop(@F), "\en";
}
.fi
.TP 5
.B \-c
causes
.I perl
to check the syntax of the script and then exit without executing it.
.TP 5
.BI \-d
runs the script under the perl debugger.
See the section on Debugging.
.TP 5
.BI \-D number
sets debugging flags.
To watch how it executes your script, use
.BR \-D14 .
(This only works if debugging is compiled into your
.IR perl .)
Another nice value is \-D1024, which lists your compiled syntax tree.
And \-D512 displays compiled regular expressions.
.TP 5
.BI \-e " commandline"
may be used to enter one line of script.
Multiple
.B \-e
commands may be given to build up a multi-line script.
If
.B \-e
is given,
.I perl
will not look for a script filename in the argument list.
.TP 5
.BI \-i extension
specifies that files processed by the <> construct are to be edited
in-place.
It does this by renaming the input file, opening the output file by the
same name, and selecting that output file as the default for print statements.
The extension, if supplied, is added to the name of the
old file to make a backup copy.
If no extension is supplied, no backup is made.
Saying \*(L"perl \-p \-i.bak \-e "s/foo/bar/;" .\|.\|. \*(R" is the same as using
the script:
.nf
.ne 2
#!/usr/bin/perl \-pi.bak
s/foo/bar/;
which is equivalent to
.ne 14
#!/usr/bin/perl
while (<>) {
if ($ARGV ne $oldargv) {
rename($ARGV, $ARGV . \'.bak\');
open(ARGVOUT, ">$ARGV");
select(ARGVOUT);
$oldargv = $ARGV;
}
s/foo/bar/;
}
continue {
print; # this prints to original filename
}
select(STDOUT);
.fi
except that the
.B \-i
form doesn't need to compare $ARGV to $oldargv to know when
the filename has changed.
It does, however, use ARGVOUT for the selected filehandle.
Note that
.I STDOUT
is restored as the default output filehandle after the loop.
.Sp
You can use eof to locate the end of each input file, in case you want
to append to each file, or reset line numbering (see example under eof).
.TP 5
.BI \-I directory
may be used in conjunction with
.B \-P
to tell the C preprocessor where to look for include files.
By default /usr/include and /usr/lib/perl are searched.
.TP 5
.BI \-l octnum
enables automatic line-ending processing. It has two effects:
first, it automatically chops the line terminator when used with
.B \-n
or
.B \-p ,
and second, it assigns $\e to have the value of
.I octnum
so that any print statements will have that line terminator added back on. If
.I octnum
is omitted, sets $\e to the current value of $/.
For instance, to trim lines to 80 columns:
.nf
perl -lpe \'substr($_, 80) = ""\'
.fi
Note that the assignment $\e = $/ is done when the switch is processed,
so the input record separator can be different than the output record
separator if the
.B \-l
switch is followed by a
.B \-0
switch:
.nf
gnufind / -print0 | perl -ln0e 'print "found $_" if -p'
.fi
This sets $\e to newline and then sets $/ to the null character.
.TP 5
.B \-n
causes
.I perl
to assume the following loop around your script, which makes it iterate
over filename arguments somewhat like \*(L"sed \-n\*(R" or \fIawk\fR:
.nf
.ne 3
while (<>) {
.\|.\|. # your script goes here
}
.fi
Note that the lines are not printed by default.
See
.B \-p
to have lines printed.
Here is an efficient way to delete all files older than a week:
.nf
find . \-mtime +7 \-print | perl \-nle \'unlink;\'
.fi
This is faster than using the \-exec switch of find because you don't have to
start a process on every filename found.
.TP 5
.B \-p
causes
.I perl
to assume the following loop around your script, which makes it iterate
over filename arguments somewhat like \fIsed\fR:
.nf
.ne 5
while (<>) {
.\|.\|. # your script goes here
} continue {
print;
}
.fi
Note that the lines are printed automatically.
To suppress printing use the
.B \-n
switch.
A
.B \-p
overrides a
.B \-n
switch.
.TP 5
.B \-P
causes your script to be run through the C preprocessor before
compilation by
.IR perl .
(Since both comments and cpp directives begin with the # character,
you should avoid starting comments with any words recognized
by the C preprocessor such as \*(L"if\*(R", \*(L"else\*(R" or \*(L"define\*(R".)
.TP 5
.B \-s
enables some rudimentary switch parsing for switches on the command line
after the script name but before any filename arguments (or before a \-\|\-).
Any switch found there is removed from @ARGV and sets the corresponding variable in the
.I perl
script.
The following script prints \*(L"true\*(R" if and only if the script is
invoked with a \-xyz switch.
.nf
.ne 2
#!/usr/bin/perl \-s
if ($xyz) { print "true\en"; }
.fi
.TP 5
.B \-S
makes
.I perl
use the PATH environment variable to search for the script
(unless the name of the script starts with a slash).
Typically this is used to emulate #! startup on machines that don't
support #!, in the following manner:
.nf
#!/usr/bin/perl
eval "exec /usr/bin/perl \-S $0 $*"
if $running_under_some_shell;
.fi
The system ignores the first line and feeds the script to /bin/sh,
which proceeds to try to execute the
.I perl
script as a shell script.
The shell executes the second line as a normal shell command, and thus
starts up the
.I perl
interpreter.
On some systems $0 doesn't always contain the full pathname,
so the
.B \-S
tells
.I perl
to search for the script if necessary.
After
.I perl
locates the script, it parses the lines and ignores them because
the variable $running_under_some_shell is never true.
A better construct than $* would be ${1+"$@"}, which handles embedded spaces
and such in the filenames, but doesn't work if the script is being interpreted
by csh.
In order to start up sh rather than csh, some systems may have to replace the
#! line with a line containing just
a colon, which will be politely ignored by perl.
Other systems can't control that, and need a totally devious construct that
will work under any of csh, sh or perl, such as the following:
.nf
.ne 3
eval '(exit $?0)' && eval 'exec /usr/bin/perl -S $0 ${1+"$@"}'
& eval 'exec /usr/bin/perl -S $0 $argv:q'
if 0;
.fi
.TP 5
.B \-u
causes
.I perl
to dump core after compiling your script.
You can then take this core dump and turn it into an executable file
by using the undump program (not supplied).
This speeds startup at the expense of some disk space (which you can
minimize by stripping the executable).
(Still, a "hello world" executable comes out to about 200K on my machine.)
If you are going to run your executable as a set-id program then you
should probably compile it using taintperl rather than normal perl.
If you want to execute a portion of your script before dumping, use the
dump operator instead.
Note: availability of undump is platform specific and may not be available
for a specific port of perl.
.TP 5
.B \-U
allows
.I perl
to do unsafe operations.
Currently the only \*(L"unsafe\*(R" operation is the unlinking of directories while
running as superuser.
.TP 5
.B \-v
prints the version and patchlevel of your
.I perl
executable.
.TP 5
.B \-w
prints warnings about identifiers that are mentioned only once, and scalar
variables that are used before being set.
Also warns about redefined subroutines, and references to undefined
filehandles or filehandles opened readonly that you are attempting to
write on.
Also warns you if you use == on values that don't look like numbers, and if
your subroutines recurse more than 100 deep.
.TP 5
.BI \-x directory
tells
.I perl
that the script is embedded in a message.
Leading garbage will be discarded until the first line that starts
with #! and contains the string "perl".
Any meaningful switches on that line will be applied (but only one
group of switches, as with normal #! processing).
If a directory name is specified, Perl will switch to that directory
before running the script.
The
.B \-x
switch only controls the the disposal of leading garbage.
The script must be terminated with __END__ if there is trailing garbage
to be ignored (the script can process any or all of the trailing garbage
via the DATA filehandle if desired).
.Sh "Data Types and Objects"
.PP
.I Perl
has three data types: scalars, arrays of scalars, and
associative arrays of scalars.
Normal arrays are indexed by number, and associative arrays by string.
.PP
The interpretation of operations and values in perl sometimes
depends on the requirements
of the context around the operation or value.
There are three major contexts: string, numeric and array.
Certain operations return array values
in contexts wanting an array, and scalar values otherwise.
(If this is true of an operation it will be mentioned in the documentation
for that operation.)
Operations which return scalars don't care whether the context is looking
for a string or a number, but
scalar variables and values are interpreted as strings or numbers
as appropriate to the context.
A scalar is interpreted as TRUE in the boolean sense if it is not the null
string or 0.
Booleans returned by operators are 1 for true and 0 or \'\' (the null
string) for false.
.PP
There are actually two varieties of null string: defined and undefined.
Undefined null strings are returned when there is no real value for something,
such as when there was an error, or at end of file, or when you refer
to an uninitialized variable or element of an array.
An undefined null string may become defined the first time you access it, but
prior to that you can use the defined() operator to determine whether the
value is defined or not.
.PP
References to scalar variables always begin with \*(L'$\*(R', even when referring
to a scalar that is part of an array.
Thus:
.nf
.ne 3
$days \h'|2i'# a simple scalar variable
$days[28] \h'|2i'# 29th element of array @days
$days{\'Feb\'}\h'|2i'# one value from an associative array
$#days \h'|2i'# last index of array @days
but entire arrays or array slices are denoted by \*(L'@\*(R':
@days \h'|2i'# ($days[0], $days[1],\|.\|.\|. $days[n])
@days[3,4,5]\h'|2i'# same as @days[3.\|.5]
@days{'a','c'}\h'|2i'# same as ($days{'a'},$days{'c'})
and entire associative arrays are denoted by \*(L'%\*(R':
%days \h'|2i'# (key1, val1, key2, val2 .\|.\|.)
.fi
.PP
Any of these eight constructs may serve as an lvalue,
that is, may be assigned to.
(It also turns out that an assignment is itself an lvalue in
certain contexts\*(--see examples under s, tr and chop.)
Assignment to a scalar evaluates the righthand side in a scalar context,
while assignment to an array or array slice evaluates the righthand side
in an array context.
.PP
You may find the length of array @days by evaluating
\*(L"$#days\*(R", as in
.IR csh .
(Actually, it's not the length of the array, it's the subscript of the last element, since there is (ordinarily) a 0th element.)
Assigning to $#days changes the length of the array.
Shortening an array by this method does not actually destroy any values.
Lengthening an array that was previously shortened recovers the values that
were in those elements.
You can also gain some measure of efficiency by preextending an array that
is going to get big.
(You can also extend an array by assigning to an element that is off the
end of the array.
This differs from assigning to $#whatever in that intervening values
are set to null rather than recovered.)
You can truncate an array down to nothing by assigning the null list () to
it.
The following are exactly equivalent
.nf
@whatever = ();
$#whatever = $[ \- 1;
.fi
.PP
If you evaluate an array in a scalar context, it returns the length of
the array.
The following is always true:
.nf
@whatever == $#whatever \- $[ + 1;
.fi
.PP
Multi-dimensional arrays are not directly supported, but see the discussion
of the $; variable later for a means of emulating multiple subscripts with
an associative array.
You could also write a subroutine to turn multiple subscripts into a single
subscript.
.PP
Every data type has its own namespace.
You can, without fear of conflict, use the same name for a scalar variable,
an array, an associative array, a filehandle, a subroutine name, and/or
a label.
Since variable and array references always start with \*(L'$\*(R', \*(L'@\*(R',
or \*(L'%\*(R', the \*(L"reserved\*(R" words aren't in fact reserved
with respect to variable names.
(They ARE reserved with respect to labels and filehandles, however, which
don't have an initial special character.
Hint: you could say open(LOG,\'logfile\') rather than open(log,\'logfile\').
Using uppercase filehandles also improves readability and protects you
from conflict with future reserved words.)
Case IS significant\*(--\*(L"FOO\*(R", \*(L"Foo\*(R" and \*(L"foo\*(R" are all
different names.
Names which start with a letter may also contain digits and underscores.
Names which do not start with a letter are limited to one character,
e.g. \*(L"$%\*(R" or \*(L"$$\*(R".
(Most of the one character names have a predefined significance to
.IR perl .
More later.)
.PP
Numeric literals are specified in any of the usual floating point or
integer formats:
.nf
.ne 5
12345
12345.67
.23E-10
0xffff # hex
0377 # octal
.fi
String literals are delimited by either single or double quotes.
They work much like shell quotes:
double-quoted string literals are subject to backslash and variable
substitution; single-quoted strings are not (except for \e\' and \e\e).
The usual backslash rules apply for making characters such as newline, tab,
etc., as well as some more exotic forms:
.nf
\et tab
\en newline
\er return
\ef form feed
\eb backspace
\ea alarm (bell)
\ee escape
\e033 octal char
\ex1b hex char
\ec[ control char
\el lowercase next char
\eu uppercase next char
\eL lowercase till \eE
\eU uppercase till \eE
\eE end case modification
.fi
You can also embed newlines directly in your strings, i.e. they can end on
a different line than they begin.
This is nice, but if you forget your trailing quote, the error will not be
reported until
.I perl
finds another line containing the quote character, which
may be much further on in the script.
Variable substitution inside strings is limited to scalar variables, normal
array values, and array slices.
(In other words, identifiers beginning with $ or @, followed by an optional
bracketed expression as a subscript.)
The following code segment prints out \*(L"The price is $100.\*(R"
.nf
.ne 2
$Price = \'$100\';\h'|3.5i'# not interpreted
print "The price is $Price.\e\|n";\h'|3.5i'# interpreted
.fi
Note that you can put curly brackets around the identifier to delimit it
from following alphanumerics.
Also note that a single quoted string must be separated from a preceding
word by a space, since single quote is a valid character in an identifier
(see Packages).
.PP
Two special literals are __LINE__ and __FILE__, which represent the current
line number and filename at that point in your program.
They may only be used as separate tokens; they will not be interpolated
into strings.
In addition, the token __END__ may be used to indicate the logical end of the
script before the actual end of file.
Any following text is ignored (but may be read via the DATA filehandle).
The two control characters ^D and ^Z are synonyms for __END__.
.PP
A word that doesn't have any other interpretation in the grammar will be
treated as if it had single quotes around it.
For this purpose, a word consists only of alphanumeric characters and underline,
and must start with an alphabetic character.
As with filehandles and labels, a bare word that consists entirely of
lowercase letters risks conflict with future reserved words, and if you
use the
.B \-w
switch, Perl will warn you about any such words.
.PP
Array values are interpolated into double-quoted strings by joining all the
elements of the array with the delimiter specified in the $" variable,
space by default.
(Since in versions of perl prior to 3.0 the @ character was not a metacharacter
in double-quoted strings, the interpolation of @array, $array[EXPR],
@array[LIST], $array{EXPR}, or @array{LIST} only happens if array is
referenced elsewhere in the program or is predefined.)
The following are equivalent:
.nf
.ne 4
$temp = join($",@ARGV);
system "echo $temp";
system "echo @ARGV";
.fi
Within search patterns (which also undergo double-quotish substitution)
there is a bad ambiguity: Is /$foo[bar]/ to be
interpreted as /${foo}[bar]/ (where [bar] is a character class for the
regular expression) or as /${foo[bar]}/ (where [bar] is the subscript to
array @foo)?
If @foo doesn't otherwise exist, then it's obviously a character class.
If @foo exists, perl takes a good guess about [bar], and is almost always right.
If it does guess wrong, or if you're just plain paranoid,
you can force the correct interpretation with curly brackets as above.
.PP
A line-oriented form of quoting is based on the shell here-is syntax.
Following a << you specify a string to terminate the quoted material, and all lines
following the current line down to the terminating string are the value
of the item.
The terminating string may be either an identifier (a word), or some
quoted text.
If quoted, the type of quotes you use determines the treatment of the text,
just as in regular quoting.
An unquoted identifier works like double quotes.
There must be no space between the << and the identifier.
(If you put a space it will be treated as a null identifier, which is
valid, and matches the first blank line\*(--see Merry Christmas example below.)
The terminating string must appear by itself (unquoted and with no surrounding
whitespace) on the terminating line.
.nf
print <<EOF; # same as above
The price is $Price.
EOF
print <<"EOF"; # same as above
The price is $Price.
EOF
print << x 10; # null identifier is delimiter
Merry Christmas!
print <<`EOC`; # execute commands
echo hi there
echo lo there
EOC
print <<foo, <<bar; # you can stack them
I said foo.
foo
I said bar.
bar
.fi
Array literals are denoted by separating individual values by commas, and
enclosing the list in parentheses:
.nf
(LIST)
.fi
In a context not requiring an array value, the value of the array literal
is the value of the final element, as in the C comma operator.
For example,
.nf
.ne 4
@foo = (\'cc\', \'\-E\', $bar);
assigns the entire array value to array foo, but
$foo = (\'cc\', \'\-E\', $bar);
.fi
assigns the value of variable bar to variable foo.
Note that the value of an actual array in a scalar context is the length
of the array; the following assigns to $foo the value 3:
.nf
.ne 2
@foo = (\'cc\', \'\-E\', $bar);
$foo = @foo; # $foo gets 3
.fi
You may have an optional comma before the closing parenthesis of an
array literal, so that you can say:
.nf
@foo = (
1,
2,
3,
);
.fi
When a LIST is evaluated, each element of the list is evaluated in
an array context, and the resulting array value is interpolated into LIST
just as if each individual element were a member of LIST. Thus arrays
lose their identity in a LIST\*(--the list
(@foo,@bar,&SomeSub)
contains all the elements of @foo followed by all the elements of @bar,
followed by all the elements returned by the subroutine named SomeSub.
.PP
A list value may also be subscripted like a normal array.
Examples:
.nf
$time = (stat($file))[8]; # stat returns array value
$digit = ('a','b','c','d','e','f')[$digit-10];
return (pop(@foo),pop(@foo))[0];
.fi
.PP
Array lists may be assigned to if and only if each element of the list
is an lvalue:
.nf
($a, $b, $c) = (1, 2, 3);
($map{\'red\'}, $map{\'blue\'}, $map{\'green\'}) = (0x00f, 0x0f0, 0xf00);
The final element may be an array or an associative array:
($a, $b, @rest) = split;
local($a, $b, %rest) = @_;
.fi
You can actually put an array anywhere in the list, but the first array
in the list will soak up all the values, and anything after it will get
a null value.
This may be useful in a local().
.PP
An associative array literal contains pairs of values to be interpreted
as a key and a value:
.nf
.ne 2
# same as map assignment above
%map = ('red',0x00f,'blue',0x0f0,'green',0xf00);
.fi
Array assignment in a scalar context returns the number of elements
produced by the expression on the right side of the assignment:
.nf
$x = (($foo,$bar) = (3,2,1)); # set $x to 3, not 2
.fi
.PP
There are several other pseudo-literals that you should know about.
If a string is enclosed by backticks (grave accents), it first undergoes
variable substitution just like a double quoted string.
It is then interpreted as a command, and the output of that command
is the value of the pseudo-literal, like in a shell.
In a scalar context, a single string consisting of all the output is
returned.
In an array context, an array of values is returned, one for each line
of output.
(You can set $/ to use a different line terminator.)
The command is executed each time the pseudo-literal is evaluated.
The status value of the command is returned in $? (see Predefined Names
for the interpretation of $?).
Unlike in \f2csh\f1, no translation is done on the return
data\*(--newlines remain newlines.
Unlike in any of the shells, single quotes do not hide variable names
in the command from interpretation.
To pass a $ through to the shell you need to hide it with a backslash.
.PP
Evaluating a filehandle in angle brackets yields the next line
from that file (newline included, so it's never false until EOF, at
which time an undefined value is returned).
Ordinarily you must assign that value to a variable,
but there is one situation where an automatic assignment happens.
If (and only if) the input symbol is the only thing inside the conditional of a
.I while
loop, the value is
automatically assigned to the variable \*(L"$_\*(R".
(This may seem like an odd thing to you, but you'll use the construct
in almost every
.I perl
script you write.)
Anyway, the following lines are equivalent to each other:
.nf
.ne 5
while ($_ = <STDIN>) { print; }
while (<STDIN>) { print; }
for (\|;\|<STDIN>;\|) { print; }
print while $_ = <STDIN>;
print while <STDIN>;
.fi
The filehandles
.IR STDIN ,
.I STDOUT
and
.I STDERR
are predefined.
(The filehandles
.IR stdin ,
.I stdout
and
.I stderr
will also work except in packages, where they would be interpreted as
local identifiers rather than global.)
Additional filehandles may be created with the
.I open
function.
.PP
If a <FILEHANDLE> is used in a context that is looking for an array, an array
consisting of all the input lines is returned, one line per array element.
It's easy to make a LARGE data space this way, so use with care.
.PP
The null filehandle <> is special and can be used to emulate the behavior of
\fIsed\fR and \fIawk\fR.
Input from <> comes either from standard input, or from each file listed on
the command line.
Here's how it works: the first time <> is evaluated, the ARGV array is checked,
and if it is null, $ARGV[0] is set to \'-\', which when opened gives you standard
input.
The ARGV array is then processed as a list of filenames.
The loop
.nf
.ne 3
while (<>) {
.\|.\|. # code for each line
}
.ne 10
is equivalent to
unshift(@ARGV, \'\-\') \|if \|$#ARGV < $[;
while ($ARGV = shift) {
open(ARGV, $ARGV);
while (<ARGV>) {
.\|.\|. # code for each line
}
}
.fi
except that it isn't as cumbersome to say.
It really does shift array ARGV and put the current filename into
variable ARGV.
It also uses filehandle ARGV internally.
You can modify @ARGV before the first <> as long as you leave the first
filename at the beginning of the array.
Line numbers ($.) continue as if the input was one big happy file.
(But see example under eof for how to reset line numbers on each file.)
.PP
.ne 5
If you want to set @ARGV to your own list of files, go right ahead.
If you want to pass switches into your script, you can
put a loop on the front like this:
.nf
.ne 10
while ($_ = $ARGV[0], /\|^\-/\|) {
shift;
last if /\|^\-\|\-$\|/\|;
/\|^\-D\|(.*\|)/ \|&& \|($debug = $1);
/\|^\-v\|/ \|&& \|$verbose++;
.\|.\|. # other switches
}
while (<>) {
.\|.\|. # code for each line
}
.fi
The <> symbol will return FALSE only once.
If you call it again after this it will assume you are processing another
@ARGV list, and if you haven't set @ARGV, will input from
.IR STDIN .
.PP
If the string inside the angle brackets is a reference to a scalar variable
(e.g. <$foo>),
then that variable contains the name of the filehandle to input from.
.PP
If the string inside angle brackets is not a filehandle, it is interpreted
as a filename pattern to be globbed, and either an array of filenames or the
next filename in the list is returned, depending on context.
One level of $ interpretation is done first, but you can't say <$foo>
because that's an indirect filehandle as explained in the previous
paragraph.
You could insert curly brackets to force interpretation as a
filename glob: <${foo}>.
Example:
.nf
.ne 3
while (<*.c>) {
chmod 0644, $_;
}
is equivalent to
.ne 5
open(foo, "echo *.c | tr \-s \' \et\er\ef\' \'\e\e012\e\e012\e\e012\e\e012\'|");
while (<foo>) {
chop;
chmod 0644, $_;
}
.fi
In fact, it's currently implemented that way.
(Which means it will not work on filenames with spaces in them unless
you have /bin/csh on your machine.)
Of course, the shortest way to do the above is:
.nf
chmod 0644, <*.c>;
.fi
.Sh "Syntax"
.PP
A
.I perl
script consists of a sequence of declarations and commands.
The only things that need to be declared in
.I perl
are report formats and subroutines.
See the sections below for more information on those declarations.
All uninitialized user-created objects are assumed to
start with a null or 0 value until they
are defined by some explicit operation such as assignment.
The sequence of commands is executed just once, unlike in
.I sed
and
.I awk
scripts, where the sequence of commands is executed for each input line.
While this means that you must explicitly loop over the lines of your input file
(or files), it also means you have much more control over which files and which
lines you look at.
(Actually, I'm lying\*(--it is possible to do an implicit loop with either the
.B \-n
or
.B \-p
switch.)
.PP
A declaration can be put anywhere a command can, but has no effect on the
execution of the primary sequence of commands\*(--declarations all take effect
at compile time.
Typically all the declarations are put at the beginning or the end of the script.
.PP
.I Perl
is, for the most part, a free-form language.
(The only exception to this is format declarations, for fairly obvious reasons.)
Comments are indicated by the # character, and extend to the end of the line.
If you attempt to use /* */ C comments, it will be interpreted either as
division or pattern matching, depending on the context.
So don't do that.
.Sh "Compound statements"
In
.IR perl ,
a sequence of commands may be treated as one command by enclosing it
in curly brackets.
We will call this a BLOCK.
.PP
The following compound commands may be used to control flow:
.nf
.ne 4
if (EXPR) BLOCK
if (EXPR) BLOCK else BLOCK
if (EXPR) BLOCK elsif (EXPR) BLOCK .\|.\|. else BLOCK
LABEL while (EXPR) BLOCK
LABEL while (EXPR) BLOCK continue BLOCK
LABEL for (EXPR; EXPR; EXPR) BLOCK
LABEL foreach VAR (ARRAY) BLOCK
LABEL BLOCK continue BLOCK
.fi
Note that, unlike C and Pascal, these are defined in terms of BLOCKs, not
statements.
This means that the curly brackets are \fIrequired\fR\*(--no dangling statements allowed.
If you want to write conditionals without curly brackets there are several
other ways to do it.
The following all do the same thing:
.nf
.ne 5
if (!open(foo)) { die "Can't open $foo: $!"; }
die "Can't open $foo: $!" unless open(foo);
open(foo) || die "Can't open $foo: $!"; # foo or bust!
open(foo) ? \'hi mom\' : die "Can't open $foo: $!";
# a bit exotic, that last one
.fi
.PP
The
.I if
statement is straightforward.
Since BLOCKs are always bounded by curly brackets, there is never any
ambiguity about which
.I if
an
.I else
goes with.
If you use
.I unless
in place of
.IR if ,
the sense of the test is reversed.
.PP
The
.I while
statement executes the block as long as the expression is true
(does not evaluate to the null string or 0).
The LABEL is optional, and if present, consists of an identifier followed by
a colon.
The LABEL identifies the loop for the loop control statements
.IR next ,
.IR last ,
and
.I redo
(see below).
If there is a
.I continue
BLOCK, it is always executed just before
the conditional is about to be evaluated again, similarly to the third part
of a
.I for
loop in C.
Thus it can be used to increment a loop variable, even when the loop has
been continued via the
.I next
statement (similar to the C \*(L"continue\*(R" statement).
.PP
If the word
.I while
is replaced by the word
.IR until ,
the sense of the test is reversed, but the conditional is still tested before
the first iteration.
.PP
In either the
.I if
or the
.I while
statement, you may replace \*(L"(EXPR)\*(R" with a BLOCK, and the conditional
is true if the value of the last command in that block is true.
.PP
The
.I for
loop works exactly like the corresponding
.I while
loop:
.nf
.ne 12
for ($i = 1; $i < 10; $i++) {
.\|.\|.
}
is the same as
$i = 1;
while ($i < 10) {
.\|.\|.
} continue {
$i++;
}
.fi
.PP
The foreach loop iterates over a normal array value and sets the variable
VAR to be each element of the array in turn.
The variable is implicitly local to the loop, and regains its former value
upon exiting the loop.
The \*(L"foreach\*(R" keyword is actually identical to the \*(L"for\*(R" keyword,
so you can use \*(L"foreach\*(R" for readability or \*(L"for\*(R" for brevity.
If VAR is omitted, $_ is set to each value.
If ARRAY is an actual array (as opposed to an expression returning an array
value), you can modify each element of the array
by modifying VAR inside the loop.
Examples:
.nf
.ne 5
for (@ary) { s/foo/bar/; }
foreach $elem (@elements) {
$elem *= 2;
}
.ne 3
for ((10,9,8,7,6,5,4,3,2,1,\'BOOM\')) {
print $_, "\en"; sleep(1);
}
for (1..15) { print "Merry Christmas\en"; }
.ne 3
foreach $item (split(/:[\e\e\en:]*/, $ENV{\'TERMCAP\'})) {
print "Item: $item\en";
}
.fi
.PP
The BLOCK by itself (labeled or not) is equivalent to a loop that executes
once.
Thus you can use any of the loop control statements in it to leave or
restart the block.
The
.I continue
block is optional.
This construct is particularly nice for doing case structures.
.nf
.ne 6
foo: {
if (/^abc/) { $abc = 1; last foo; }
if (/^def/) { $def = 1; last foo; }
if (/^xyz/) { $xyz = 1; last foo; }
$nothing = 1;
}
.fi
There is no official switch statement in perl, because there
are already several ways to write the equivalent.
In addition to the above, you could write
.nf
.ne 6
foo: {
$abc = 1, last foo if /^abc/;
$def = 1, last foo if /^def/;
$xyz = 1, last foo if /^xyz/;
$nothing = 1;
}
or
.ne 6
foo: {
/^abc/ && do { $abc = 1; last foo; };
/^def/ && do { $def = 1; last foo; };
/^xyz/ && do { $xyz = 1; last foo; };
$nothing = 1;
}
or
.ne 6
foo: {
/^abc/ && ($abc = 1, last foo);
/^def/ && ($def = 1, last foo);
/^xyz/ && ($xyz = 1, last foo);
$nothing = 1;
}
or even
.ne 8
if (/^abc/)
{ $abc = 1; }
elsif (/^def/)
{ $def = 1; }
elsif (/^xyz/)
{ $xyz = 1; }
else
{$nothing = 1;}
.fi
As it happens, these are all optimized internally to a switch structure,
so perl jumps directly to the desired statement, and you needn't worry
about perl executing a lot of unnecessary statements when you have a string
of 50 elsifs, as long as you are testing the same simple scalar variable
using ==, eq, or pattern matching as above.
(If you're curious as to whether the optimizer has done this for a particular
case statement, you can use the \-D1024 switch to list the syntax tree
before execution.)
.Sh "Simple statements"
The only kind of simple statement is an expression evaluated for its side
effects.
Every expression (simple statement) must be terminated with a semicolon.
Note that this is like C, but unlike Pascal (and
.IR awk ).
.PP
Any simple statement may optionally be followed by a
single modifier, just before the terminating semicolon.
The possible modifiers are:
.nf
.ne 4
if EXPR
unless EXPR
while EXPR
until EXPR
.fi
The
.I if
and
.I unless
modifiers have the expected semantics.
The
.I while
and
.I until
modifiers also have the expected semantics (conditional evaluated first),
except when applied to a do-BLOCK or a do-SUBROUTINE command,
in which case the block executes once before the conditional is evaluated.
This is so that you can write loops like:
.nf
.ne 4
do {
$_ = <STDIN>;
.\|.\|.
} until $_ \|eq \|".\|\e\|n";
.fi
(See the
.I do
operator below. Note also that the loop control commands described later will
NOT work in this construct, since modifiers don't take loop labels.
Sorry.)
.Sh "Expressions"
Since
.I perl
expressions work almost exactly like C expressions, only the differences
will be mentioned here.
.PP
Here's what
.I perl
has that C doesn't:
.Ip ** 8 2
The exponentiation operator.
.Ip **= 8
The exponentiation assignment operator.
.Ip (\|) 8 3
The null list, used to initialize an array to null.
.Ip . 8
Concatenation of two strings.
.Ip .= 8
The concatenation assignment operator.
.Ip eq 8
String equality (== is numeric equality).
For a mnemonic just think of \*(L"eq\*(R" as a string.
(If you are used to the
.I awk
behavior of using == for either string or numeric equality
based on the current form of the comparands, beware!
You must be explicit here.)
.Ip ne 8
String inequality (!= is numeric inequality).
.Ip lt 8
String less than.
.Ip gt 8
String greater than.
.Ip le 8
String less than or equal.
.Ip ge 8
String greater than or equal.
.Ip cmp 8
String comparison, returning -1, 0, or 1.
.Ip <=> 8
Numeric comparison, returning -1, 0, or 1.
.Ip =~ 8 2
Certain operations search or modify the string \*(L"$_\*(R" by default.
This operator makes that kind of operation work on some other string.
The right argument is a search pattern, substitution, or translation.
The left argument is what is supposed to be searched, substituted, or
translated instead of the default \*(L"$_\*(R".
The return value indicates the success of the operation.
(If the right argument is an expression other than a search pattern,
substitution, or translation, it is interpreted as a search pattern
at run time.
This is less efficient than an explicit search, since the pattern must
be compiled every time the expression is evaluated.)
The precedence of this operator is lower than unary minus and autoincrement/decrement, but higher than everything else.
.Ip !~ 8
Just like =~ except the return value is negated.
.Ip x 8
The repetition operator.
Returns a string consisting of the left operand repeated the
number of times specified by the right operand.
In an array context, if the left operand is a list in parens, it repeats
the list.
.nf
print \'\-\' x 80; # print row of dashes
print \'\-\' x80; # illegal, x80 is identifier
print "\et" x ($tab/8), \' \' x ($tab%8); # tab over
@ones = (1) x ; # an array of 80 1's
@ones = (5) x @ones; # set all elements to 5
.fi
.Ip x= 8
The repetition assignment operator.
Only works on scalars.
.Ip .\|. 8
The range operator, which is really two different operators depending
on the context.
In an array context, returns an array of values counting (by ones)
from the left value to the right value.
This is useful for writing \*(L"for (1..10)\*(R" loops and for doing
slice operations on arrays.
.Sp
In a scalar context, .\|. returns a boolean value.
The operator is bistable, like a flip-flop..
Each .\|. operator maintains its own boolean state.
It is false as long as its left operand is false.
Once the left operand is true, the range operator stays true
until the right operand is true,
AFTER which the range operator becomes false again.
(It doesn't become false till the next time the range operator is evaluated.
It can become false on the same evaluation it became true, but it still returns
true once.)
The right operand is not evaluated while the operator is in the \*(L"false\*(R" state,
and the left operand is not evaluated while the operator is in the \*(L"true\*(R" state.
The scalar .\|. operator is primarily intended for doing line number ranges
after
the fashion of \fIsed\fR or \fIawk\fR.
The precedence is a little lower than || and &&.
The value returned is either the null string for false, or a sequence number
(beginning with 1) for true.
The sequence number is reset for each range encountered.
The final sequence number in a range has the string \'E0\' appended to it, which
doesn't affect its numeric value, but gives you something to search for if you
want to exclude the endpoint.
You can exclude the beginning point by waiting for the sequence number to be
greater than 1.
If either operand of scalar .\|. is static, that operand is implicitly compared
to the $. variable, the current line number.
Examples:
.nf
.ne 6
As a scalar operator:
if (101 .\|. 200) { print; } # print 2nd hundred lines
next line if (1 .\|. /^$/); # skip header lines
s/^/> / if (/^$/ .\|. eof()); # quote body
.ne 4
As an array operator:
for (101 .\|. 200) { print; } # print $_ 100 times
@foo = @foo[$[ .\|. $#foo]; # an expensive no-op
@foo = @foo[$#foo-4 .\|. $#foo]; # slice last 5 items
.fi
.Ip \-x 8
A file test.
This unary operator takes one argument, either a filename or a filehandle,
and tests the associated file to see if something is true about it.
If the argument is omitted, tests $_, except for \-t, which tests
.IR STDIN .
It returns 1 for true and \'\' for false, or the undefined value if the
file doesn't exist.
Precedence is higher than logical and relational operators, but lower than
arithmetic operators.
The operator may be any of:
.nf
\-r File is readable by effective uid.
\-w File is writable by effective uid.
\-x File is executable by effective uid.
\-o File is owned by effective uid.
\-R File is readable by real uid.
\-W File is writable by real uid.
\-X File is executable by real uid.
\-O File is owned by real uid.
\-e File exists.
\-z File has zero size.
\-s File has non-zero size (returns size).
\-f File is a plain file.
\-d File is a directory.
\-l File is a symbolic link.
\-p File is a named pipe (FIFO).
\-S File is a socket.
\-b File is a block special file.
\-c File is a character special file.
\-u File has setuid bit set.
\-g File has setgid bit set.
\-k File has sticky bit set.
\-t Filehandle is opened to a tty.
\-T File is a text file.
\-B File is a binary file (opposite of \-T).
\-M Age of file in days when script started.
\-A Same for access time.
\-C Same for inode change time.
.fi
The interpretation of the file permission operators \-r, \-R, \-w, \-W, \-x and \-X
is based solely on the mode of the file and the uids and gids of the user.
There may be other reasons you can't actually read, write or execute the file.
Also note that, for the superuser, \-r, \-R, \-w and \-W always return 1, and
\-x and \-X return 1 if any execute bit is set in the mode.
Scripts run by the superuser may thus need to do a stat() in order to determine
the actual mode of the file, or temporarily set the uid to something else.
.Sp
Example:
.nf
.ne 7
while (<>) {
chop;
next unless \-f $_; # ignore specials
.\|.\|.
}
.fi
Note that \-s/a/b/ does not do a negated substitution.
Saying \-exp($foo) still works as expected, however\*(--only single letters
following a minus are interpreted as file tests.
.Sp
The \-T and \-B switches work as follows.
The first block or so of the file is examined for odd characters such as
strange control codes or metacharacters.
If too many odd characters (>10%) are found, it's a \-B file, otherwise it's a \-T file.
Also, any file containing null in the first block is considered a binary file.
If \-T or \-B is used on a filehandle, the current stdio buffer is examined
rather than the first block.
Both \-T and \-B return TRUE on a null file, or a file at EOF when testing
a filehandle.
.PP
If any of the file tests (or either stat operator) are given the special
filehandle consisting of a solitary underline, then the stat structure
of the previous file test (or stat operator) is used, saving a system
call.
(This doesn't work with \-t, and you need to remember that lstat and -l
will leave values in the stat structure for the symbolic link, not the
real file.)
Example:
.nf
print "Can do.\en" if -r $a || -w _ || -x _;
.ne 9
stat($filename);
print "Readable\en" if -r _;
print "Writable\en" if -w _;
print "Executable\en" if -x _;
print "Setuid\en" if -u _;
print "Setgid\en" if -g _;
print "Sticky\en" if -k _;
print "Text\en" if -T _;
print "Binary\en" if -B _;
.fi
.PP
Here is what C has that
.I perl
doesn't:
.Ip "unary &" 12
Address-of operator.
.Ip "unary *" 12
Dereference-address operator.
.Ip "(TYPE)" 12
Type casting operator.
.PP
Like C,
.I perl
does a certain amount of expression evaluation at compile time, whenever
it determines that all of the arguments to an operator are static and have
no side effects.
In particular, string concatenation happens at compile time between literals that don't do variable substitution.
Backslash interpretation also happens at compile time.
You can say
.nf
.ne 2
\'Now is the time for all\' . "\|\e\|n" .
\'good men to come to.\'
.fi
and this all reduces to one string internally.
.PP
The autoincrement operator has a little extra built-in magic to it.
If you increment a variable that is numeric, or that has ever been used in
a numeric context, you get a normal increment.
If, however, the variable has only been used in string contexts since it
was set, and has a value that is not null and matches the
pattern /^[a\-zA\-Z]*[0\-9]*$/, the increment is done
as a string, preserving each character within its range, with carry:
.nf
print ++($foo = \'99\'); # prints \*(L'100\*(R'
print ++($foo = \'a0\'); # prints \*(L'a1\*(R'
print ++($foo = \'Az\'); # prints \*(L'Ba\*(R'
print ++($foo = \'zz\'); # prints \*(L'aaa\*(R'
.fi
The autodecrement is not magical.
.PP
The range operator (in an array context) makes use of the magical
autoincrement algorithm if the minimum and maximum are strings.
You can say
@alphabet = (\'A\' .. \'Z\');
to get all the letters of the alphabet, or
$hexdigit = (0 .. 9, \'a\' .. \'f\')[$num & 15];
to get a hexadecimal digit, or
@z2 = (\'01\' .. \'31\'); print @z2[$mday];
to get dates with leading zeros.
(If the final value specified is not in the sequence that the magical increment
would produce, the sequence goes until the next value would be longer than
the final value specified.)
.PP
The || and && operators differ from C's in that, rather than returning 0 or 1,
they return the last value evaluated.
Thus, a portable way to find out the home directory might be:
.nf
$home = $ENV{'HOME'} || $ENV{'LOGDIR'} ||
(getpwuid($<))[7] || die "You're homeless!\en";
.fi
''' Beginning of part 2
''' $Header: perl.man,v 4.0 91/03/20 01:38:08 lwall Locked $
'''
''' $Log: perl.man,v $
''' Revision 4.0 91/03/20 01:38:08 lwall
''' 4.0 baseline.
'''
''' Revision 3.0.1.11 91/01/11 18:17:08 lwall
''' patch42: fixed some man page entries
'''
''' Revision 3.0.1.10 90/11/10 01:46:29 lwall
''' patch38: random cleanup
''' patch38: added alarm function
'''
''' Revision 3.0.1.9 90/10/15 18:17:37 lwall
''' patch29: added caller
''' patch29: index and substr now have optional 3rd args
''' patch29: added SysV IPC
'''
''' Revision 3.0.1.8 90/08/13 22:21:00 lwall
''' patch28: documented that you can't interpolate $) or $| in pattern
'''
''' Revision 3.0.1.7 90/08/09 04:27:04 lwall
''' patch19: added require operator
'''
''' Revision 3.0.1.6 90/08/03 11:15:29 lwall
''' patch19: Intermediate diffs for Randal
'''
''' Revision 3.0.1.5 90/03/27 16:15:17 lwall
''' patch16: MSDOS support
'''
''' Revision 3.0.1.4 90/03/12 16:46:02 lwall
''' patch13: documented behavior of @array = /noparens/
'''
''' Revision 3.0.1.3 90/02/28 17:55:58 lwall
''' patch9: grep now returns number of items matched in scalar context
''' patch9: documented in-place modification capabilites of grep
'''
''' Revision 3.0.1.2 89/11/17 15:30:16 lwall
''' patch5: fixed some manual typos and indent problems
'''
''' Revision 3.0.1.1 89/11/11 04:43:10 lwall
''' patch2: made some line breaks depend on troff vs. nroff
''' patch2: example of unshift had args backwards
'''
''' Revision 3.0 89/10/18 15:21:37 lwall
''' 3.0 baseline
'''
'''
.PP
Along with the literals and variables mentioned earlier,
the operations in the following section can serve as terms in an expression.
Some of these operations take a LIST as an argument.
Such a list can consist of any combination of scalar arguments or array values;
the array values will be included in the list as if each individual element were
interpolated at that point in the list, forming a longer single-dimensional
array value.
Elements of the LIST should be separated by commas.
If an operation is listed both with and without parentheses around its
arguments, it means you can either use it as a unary operator or
as a function call.
To use it as a function call, the next token on the same line must
be a left parenthesis.
(There may be intervening white space.)
Such a function then has highest precedence, as you would expect from
a function.
If any token other than a left parenthesis follows, then it is a
unary operator, with a precedence depending only on whether it is a LIST
operator or not.
LIST operators have lowest precedence.
All other unary operators have a precedence greater than relational operators
but less than arithmetic operators.
See the section on Precedence.
.Ip "/PATTERN/" 8 4
See m/PATTERN/.
.Ip "?PATTERN?" 8 4
This is just like the /pattern/ search, except that it matches only once between
calls to the
.I reset
operator.
This is a useful optimization when you only want to see the first occurrence of
something in each file of a set of files, for instance.
Only ?? patterns local to the current package are reset.
.Ip "accept(NEWSOCKET,GENERICSOCKET)" 8 2
Does the same thing that the accept system call does.
Returns true if it succeeded, false otherwise.
See example in section on Interprocess Communication.
.Ip "alarm(SECONDS)" 8 4
.Ip "alarm SECONDS" 8
Arranges to have a SIGALRM delivered to this process after the specified number
of seconds (minus 1, actually) have elapsed. Thus, alarm(15) will cause
a SIGALRM at some point more than 14 seconds in the future.
Only one timer may be counting at once. Each call disables the previous
timer, and an argument of 0 may be supplied to cancel the previous timer
without starting a new one.
The returned value is the amount of time remaining on the previous timer.
.Ip "atan2(Y,X)" 8 2
Returns the arctangent of Y/X in the range
.if t \-\(*p to \(*p.
.if n \-PI to PI.
.Ip "bind(SOCKET,NAME)" 8 2
Does the same thing that the bind system call does.
Returns true if it succeeded, false otherwise.
NAME should be a packed address of the proper type for the socket.
See example in section on Interprocess Communication.
.Ip "binmode(FILEHANDLE)" 8 4
.Ip "binmode FILEHANDLE" 8 4
Arranges for the file to be read in \*(L"binary\*(R" mode in operating systems
that distinguish between binary and text files.
Files that are not read in binary mode have CR LF sequences translated
to LF on input and LF translated to CR LF on output.
Binmode has no effect under Unix.
If FILEHANDLE is an expression, the value is taken as the name of
the filehandle.
.Ip "caller(EXPR)"
.Ip "caller"
Returns the context of the current subroutine call:
.nf
($package,$filename,$line) = caller;
.fi
With EXPR, returns some extra information that the debugger uses to print
a stack trace. The value of EXPR indicates how many call frames to go
back before the current one.
.Ip "chdir(EXPR)" 8 2
.Ip "chdir EXPR" 8 2
Changes the working directory to EXPR, if possible.
If EXPR is omitted, changes to home directory.
Returns 1 upon success, 0 otherwise.
See example under
.IR die .
.Ip "chmod(LIST)" 8 2
.Ip "chmod LIST" 8 2
Changes the permissions of a list of files.
The first element of the list must be the numerical mode.
Returns the number of files successfully changed.
.nf
.ne 2
$cnt = chmod 0755, \'foo\', \'bar\';
chmod 0755, @executables;
.fi
.Ip "chop(LIST)" 8 7
.Ip "chop(VARIABLE)" 8
.Ip "chop VARIABLE" 8
.Ip "chop" 8
Chops off the last character of a string and returns the character chopped.
It's used primarily to remove the newline from the end of an input record,
but is much more efficient than s/\en// because it neither scans nor copies
the string.
If VARIABLE is omitted, chops $_.
Example:
.nf
.ne 5
while (<>) {
chop; # avoid \en on last field
@array = split(/:/);
.\|.\|.
}
.fi
You can actually chop anything that's an lvalue, including an assignment:
.nf
chop($cwd = \`pwd\`);
chop($answer = <STDIN>);
.fi
If you chop a list, each element is chopped.
Only the value of the last chop is returned.
.Ip "chown(LIST)" 8 2
.Ip "chown LIST" 8 2
Changes the owner (and group) of a list of files.
The first two elements of the list must be the NUMERICAL uid and gid,
in that order.
Returns the number of files successfully changed.
.nf
.ne 2
$cnt = chown $uid, $gid, \'foo\', \'bar\';
chown $uid, $gid, @filenames;
.fi
.ne 23
Here's an example of looking up non-numeric uids:
.nf
print "User: ";
$user = <STDIN>;
chop($user);
print "Files: "
$pattern = <STDIN>;
chop($pattern);
.ie t \{\
open(pass, \'/etc/passwd\') || die "Can't open passwd: $!\en";
'br\}
.el \{\
open(pass, \'/etc/passwd\')
|| die "Can't open passwd: $!\en";
'br\}
while (<pass>) {
($login,$pass,$uid,$gid) = split(/:/);
$uid{$login} = $uid;
$gid{$login} = $gid;
}
@ary = <${pattern}>; # get filenames
if ($uid{$user} eq \'\') {
die "$user not in passwd file";
}
else {
chown $uid{$user}, $gid{$user}, @ary;
}
.fi
.Ip "chroot(FILENAME)" 8 5
.Ip "chroot FILENAME" 8
Does the same as the system call of that name.
If you don't know what it does, don't worry about it.
If FILENAME is omitted, does chroot to $_.
.Ip "close(FILEHANDLE)" 8 5
.Ip "close FILEHANDLE" 8
Closes the file or pipe associated with the file handle.
You don't have to close FILEHANDLE if you are immediately going to
do another open on it, since open will close it for you.
(See
.IR open .)
However, an explicit close on an input file resets the line counter ($.), while
the implicit close done by
.I open
does not.
Also, closing a pipe will wait for the process executing on the pipe to complete,
in case you want to look at the output of the pipe afterwards.
Closing a pipe explicitly also puts the status value of the command into $?.
Example:
.nf
.ne 4
open(OUTPUT, \'|sort >foo\'); # pipe to sort
.\|.\|. # print stuff to output
close OUTPUT; # wait for sort to finish
open(INPUT, \'foo\'); # get sort's results
.fi
FILEHANDLE may be an expression whose value gives the real filehandle name.
.Ip "closedir(DIRHANDLE)" 8 5
.Ip "closedir DIRHANDLE" 8
Closes a directory opened by opendir().
.Ip "connect(SOCKET,NAME)" 8 2
Does the same thing that the connect system call does.
Returns true if it succeeded, false otherwise.
NAME should be a package address of the proper type for the socket.
See example in section on Interprocess Communication.
.Ip "cos(EXPR)" 8 6
.Ip "cos EXPR" 8 6
Returns the cosine of EXPR (expressed in radians).
If EXPR is omitted takes cosine of $_.
.Ip "crypt(PLAINTEXT,SALT)" 8 6
Encrypts a string exactly like the crypt() function in the C library.
Useful for checking the password file for lousy passwords.
Only the guys wearing white hats should do this.
.Ip "dbmclose(ASSOC_ARRAY)" 8 6
.Ip "dbmclose ASSOC_ARRAY" 8
Breaks the binding between a dbm file and an associative array.
The values remaining in the associative array are meaningless unless
you happen to want to know what was in the cache for the dbm file.
This function is only useful if you have ndbm.
.Ip "dbmopen(ASSOC,DBNAME,MODE)" 8 6
This binds a dbm or ndbm file to an associative array.
ASSOC is the name of the associative array.
(Unlike normal open, the first argument is NOT a filehandle, even though
it looks like one).
DBNAME is the name of the database (without the .dir or .pag extension).
If the database does not exist, it is created with protection specified
by MODE (as modified by the umask).
If your system only supports the older dbm functions, you may only have one
dbmopen in your program.
If your system has neither dbm nor ndbm, calling dbmopen produces a fatal
error.
.Sp
Values assigned to the associative array prior to the dbmopen are lost.
A certain number of values from the dbm file are cached in memory.
By default this number is 64, but you can increase it by preallocating
that number of garbage entries in the associative array before the dbmopen.
You can flush the cache if necessary with the reset command.
.Sp
If you don't have write access to the dbm file, you can only read
associative array variables, not set them.
If you want to test whether you can write, either use file tests or
try setting a dummy array entry inside an eval, which will trap the error.
.Sp
Note that functions such as keys() and values() may return huge array values
when used on large dbm files.
You may prefer to use the each() function to iterate over large dbm files.
Example:
.nf
.ne 6
# print out history file offsets
dbmopen(HIST,'/usr/lib/news/history',0666);
while (($key,$val) = each %HIST) {
print $key, ' = ', unpack('L',$val), "\en";
}
dbmclose(HIST);
.fi
.Ip "defined(EXPR)" 8 6
.Ip "defined EXPR" 8
Returns a boolean value saying whether the lvalue EXPR has a real value
or not.
Many operations return the undefined value under exceptional conditions,
such as end of file, uninitialized variable, system error and such.
This function allows you to distinguish between an undefined null string
and a defined null string with operations that might return a real null
string, in particular referencing elements of an array.
You may also check to see if arrays or subroutines exist.
Use on predefined variables is not guaranteed to produce intuitive results.
Examples:
.nf
.ne 7
print if defined $switch{'D'};
print "$val\en" while defined($val = pop(@ary));
die "Can't readlink $sym: $!"
unless defined($value = readlink $sym);
eval '@foo = ()' if defined(@foo);
die "No XYZ package defined" unless defined %_XYZ;
sub foo { defined &bar ? &bar(@_) : die "No bar"; }
.fi
See also undef.
.Ip "delete $ASSOC{KEY}" 8 6
Deletes the specified value from the specified associative array.
Returns the deleted value, or the undefined value if nothing was deleted.
Deleting from $ENV{} modifies the environment.
Deleting from an array bound to a dbm file deletes the entry from the dbm
file.
.Sp
The following deletes all the values of an associative array:
.nf
.ne 3
foreach $key (keys %ARRAY) {
delete $ARRAY{$key};
}
.fi
(But it would be faster to use the
.I reset
command.
Saying undef %ARRAY is faster yet.)
.Ip "die(LIST)" 8
.Ip "die LIST" 8
Outside of an eval, prints the value of LIST to
.I STDERR
and exits with the current value of $!
(errno).
If $! is 0, exits with the value of ($? >> 8) (\`command\` status).
If ($? >> 8) is 0, exits with 255.
Inside an eval, the error message is stuffed into $@ and the eval is terminated
with the undefined value.
.Sp
Equivalent examples:
.nf
.ne 3
.ie t \{\
die "Can't cd to spool: $!\en" unless chdir \'/usr/spool/news\';
'br\}
.el \{\
die "Can't cd to spool: $!\en"
unless chdir \'/usr/spool/news\';
'br\}
chdir \'/usr/spool/news\' || die "Can't cd to spool: $!\en"
.fi
.Sp
If the value of EXPR does not end in a newline, the current script line
number and input line number (if any) are also printed, and a newline is
supplied.
Hint: sometimes appending \*(L", stopped\*(R" to your message will cause it to make
better sense when the string \*(L"at foo line 123\*(R" is appended.
Suppose you are running script \*(L"canasta\*(R".
.nf
.ne 7
die "/etc/games is no good";
die "/etc/games is no good, stopped";
produce, respectively
/etc/games is no good at canasta line 123.
/etc/games is no good, stopped at canasta line 123.
.fi
See also
.IR exit .
.Ip "do BLOCK" 8 4
Returns the value of the last command in the sequence of commands indicated
by BLOCK.
When modified by a loop modifier, executes the BLOCK once before testing the
loop condition.
(On other statements the loop modifiers test the conditional first.)
.Ip "do SUBROUTINE (LIST)" 8 3
Executes a SUBROUTINE declared by a
.I sub
declaration, and returns the value
of the last expression evaluated in SUBROUTINE.
If there is no subroutine by that name, produces a fatal error.
(You may use the \*(L"defined\*(R" operator to determine if a subroutine
exists.)
If you pass arrays as part of LIST you may wish to pass the length
of the array in front of each array.
(See the section on subroutines later on.)
SUBROUTINE may be a scalar variable, in which case the variable contains
the name of the subroutine to execute.
The parentheses are required to avoid confusion with the \*(L"do EXPR\*(R"
form.
.Sp
As an alternate form, you may call a subroutine by prefixing the name with
an ampersand: &foo(@args).
If you aren't passing any arguments, you don't have to use parentheses.
If you omit the parentheses, no @_ array is passed to the subroutine.
The & form is also used to specify subroutines to the defined and undef
operators.
.Ip "do EXPR" 8 3
Uses the value of EXPR as a filename and executes the contents of the file
as a
.I perl
script.
Its primary use is to include subroutines from a
.I perl
subroutine library.
.nf
do \'stat.pl\';
is just like
eval \`cat stat.pl\`;
.fi
except that it's more efficient, more concise, keeps track of the current
filename for error messages, and searches all the
.B \-I
libraries if the file
isn't in the current directory (see also the @INC array in Predefined Names).
It's the same, however, in that it does reparse the file every time you
call it, so if you are going to use the file inside a loop you might prefer
to use \-P and #include, at the expense of a little more startup time.
(The main problem with #include is that cpp doesn't grok # comments\*(--a
workaround is to use \*(L";#\*(R" for standalone comments.)
Note that the following are NOT equivalent:
.nf
.ne 2
do $foo; # eval a file
do $foo(); # call a subroutine
.fi
Note that inclusion of library routines is better done with
the \*(L"require\*(R" operator.
.Ip "dump LABEL" 8 6
This causes an immediate core dump.
Primarily this is so that you can use the undump program to turn your
core dump into an executable binary after having initialized all your
variables at the beginning of the program.
When the new binary is executed it will begin by executing a "goto LABEL"
(with all the restrictions that goto suffers).
Think of it as a goto with an intervening core dump and reincarnation.
If LABEL is omitted, restarts the program from the top.
WARNING: any files opened at the time of the dump will NOT be open any more
when the program is reincarnated, with possible resulting confusion on the part
of perl.
See also \-u.
.Sp
Example:
.nf
.ne 16
#!/usr/bin/perl
require 'getopt.pl';
require 'stat.pl';
%days = (
'Sun',1,
'Mon',2,
'Tue',3,
'Wed',4,
'Thu',5,
'Fri',6,
'Sat',7);
dump QUICKSTART if $ARGV[0] eq '-d';
QUICKSTART:
do Getopt('f');
.fi
.Ip "each(ASSOC_ARRAY)" 8 6
.Ip "each ASSOC_ARRAY" 8
Returns a 2 element array consisting of the key and value for the next
value of an associative array, so that you can iterate over it.
Entries are returned in an apparently random order.
When the array is entirely read, a null array is returned (which when
assigned produces a FALSE (0) value).
The next call to each() after that will start iterating again.
The iterator can be reset only by reading all the elements from the array.
You must not modify the array while iterating over it.
There is a single iterator for each associative array, shared by all
each(), keys() and values() function calls in the program.
The following prints out your environment like the printenv program, only
in a different order:
.nf
.ne 3
while (($key,$value) = each %ENV) {
print "$key=$value\en";
}
.fi
See also keys() and values().
.Ip "eof(FILEHANDLE)" 8 8
.Ip "eof()" 8
.Ip "eof" 8
Returns 1 if the next read on FILEHANDLE will return end of file, or if
FILEHANDLE is not open.
FILEHANDLE may be an expression whose value gives the real filehandle name.
(Note that this function actually reads a character and then ungetc's it,
so it is not very useful in an interactive context.)
An eof without an argument returns the eof status for the last file read.
Empty parentheses () may be used to indicate the pseudo file formed of the
files listed on the command line, i.e. eof() is reasonable to use inside
a while (<>) loop to detect the end of only the last file.
Use eof(ARGV) or eof without the parentheses to test EACH file in a while (<>) loop.
Examples:
.nf
.ne 7
# insert dashes just before last line of last file
while (<>) {
if (eof()) {
print "\-\|\-\|\-\|\-\|\-\|\-\|\-\|\-\|\-\|\-\|\-\|\-\|\-\|\-\en";
}
print;
}
.ne 7
# reset line numbering on each input file
while (<>) {
print "$.\et$_";
if (eof) { # Not eof().
close(ARGV);
}
}
.fi
.Ip "eval(EXPR)" 8 6
.Ip "eval EXPR" 8 6
EXPR is parsed and executed as if it were a little
.I perl
program.
It is executed in the context of the current
.I perl
program, so that
any variable settings, subroutine or format definitions remain afterwards.
The value returned is the value of the last expression evaluated, just
as with subroutines.
If there is a syntax error or runtime error, or a die statement is
executed, an undefined value is returned by
eval, and $@ is set to the error message.
If there was no error, $@ is guaranteed to be a null string.
If EXPR is omitted, evaluates $_.
The final semicolon, if any, may be omitted from the expression.
.Sp
Note that, since eval traps otherwise-fatal errors, it is useful for
determining whether a particular feature
(such as dbmopen or symlink) is implemented.
It is also Perl's exception trapping mechanism, where the die operator is
used to raise exceptions.
.Ip "exec(LIST)" 8 8
.Ip "exec LIST" 8 6
If there is more than one argument in LIST, or if LIST is an array with
more than one value,
calls execvp() with the arguments in LIST.
If there is only one scalar argument, the argument is checked for shell metacharacters.
If there are any, the entire argument is passed to \*(L"/bin/sh \-c\*(R" for parsing.
If there are none, the argument is split into words and passed directly to
execvp(), which is more efficient.
Note: exec (and system) do not flush your output buffer, so you may need to
set $| to avoid lost output.
Examples:
.nf
exec \'/bin/echo\', \'Your arguments are: \', @ARGV;
exec "sort $outfile | uniq";
.fi
.Sp
If you don't really want to execute the first argument, but want to lie
to the program you are executing about its own name, you can specify
the program you actually want to run by assigning that to a variable and
putting the name of the variable in front of the LIST without a comma.
(This always forces interpretation of the LIST as a multi-valued list, even
if there is only a single scalar in the list.)
Example:
.nf
.ne 2
$shell = '/bin/csh';
exec $shell '-sh'; # pretend it's a login shell
.fi
.Ip "exit(EXPR)" 8 6
.Ip "exit EXPR" 8
Evaluates EXPR and exits immediately with that value.
Example:
.nf
.ne 2
$ans = <STDIN>;
exit 0 \|if \|$ans \|=~ \|/\|^[Xx]\|/\|;
.fi
See also
.IR die .
If EXPR is omitted, exits with 0 status.
.Ip "exp(EXPR)" 8 3
.Ip "exp EXPR" 8
Returns
.I e
to the power of EXPR.
If EXPR is omitted, gives exp($_).
.Ip "fcntl(FILEHANDLE,FUNCTION,SCALAR)" 8 4
Implements the fcntl(2) function.
You'll probably have to say
.nf
require "fcntl.ph"; # probably /usr/local/lib/perl/fcntl.ph
.fi
first to get the correct function definitions.
If fcntl.ph doesn't exist or doesn't have the correct definitions
you'll have to roll
your own, based on your C header files such as <sys/fcntl.h>.
(There is a perl script called h2ph that comes with the perl kit
which may help you in this.)
Argument processing and value return works just like ioctl below.
Note that fcntl will produce a fatal error if used on a machine that doesn't implement
fcntl(2).
.Ip "fileno(FILEHANDLE)" 8 4
.Ip "fileno FILEHANDLE" 8 4
Returns the file descriptor for a filehandle.
Useful for constructing bitmaps for select().
If FILEHANDLE is an expression, the value is taken as the name of
the filehandle.
.Ip "flock(FILEHANDLE,OPERATION)" 8 4
Calls flock(2) on FILEHANDLE.
See manual page for flock(2) for definition of OPERATION.
Returns true for success, false on failure.
Will produce a fatal error if used on a machine that doesn't implement
flock(2).
Here's a mailbox appender for BSD systems.
.nf
.ne 20
$LOCK_SH = 1;
$LOCK_EX = 2;
$LOCK_NB = 4;
$LOCK_UN = 8;
sub lock {
flock(MBOX,$LOCK_EX);
# and, in case someone appended
# while we were waiting...
seek(MBOX, 0, 2);
}
sub unlock {
flock(MBOX,$LOCK_UN);
}
open(MBOX, ">>/usr/spool/mail/$ENV{'USER'}")
|| die "Can't open mailbox: $!";
do lock();
print MBOX $msg,"\en\en";
do unlock();
.fi
.Ip "fork" 8 4
Does a fork() call.
Returns the child pid to the parent process and 0 to the child process.
Note: unflushed buffers remain unflushed in both processes, which means
you may need to set $| to avoid duplicate output.
.Ip "getc(FILEHANDLE)" 8 4
.Ip "getc FILEHANDLE" 8
.Ip "getc" 8
Returns the next character from the input file attached to FILEHANDLE, or
a null string at EOF.
If FILEHANDLE is omitted, reads from STDIN.
.Ip "getlogin" 8 3
Returns the current login from /etc/utmp, if any.
If null, use getpwuid.
$login = getlogin || (getpwuid($<))[0] || "Somebody";
.Ip "getpeername(SOCKET)" 8 3
Returns the packed sockaddr address of other end of the SOCKET connection.
.nf
.ne 4
# An internet sockaddr
$sockaddr = 'S n a4 x8';
$hersockaddr = getpeername(S);
.ie t \{\
($family, $port, $heraddr) = unpack($sockaddr,$hersockaddr);
'br\}
.el \{\
($family, $port, $heraddr) =
unpack($sockaddr,$hersockaddr);
'br\}
.fi
.Ip "getpgrp(PID)" 8 4
.Ip "getpgrp PID" 8
Returns the current process group for the specified PID, 0 for the current
process.
Will produce a fatal error if used on a machine that doesn't implement
getpgrp(2).
If EXPR is omitted, returns process group of current process.
.Ip "getppid" 8 4
Returns the process id of the parent process.
.Ip "getpriority(WHICH,WHO)" 8 4
Returns the current priority for a process, a process group, or a user.
(See getpriority(2).)
Will produce a fatal error if used on a machine that doesn't implement
getpriority(2).
.Ip "getpwnam(NAME)" 8
.Ip "getgrnam(NAME)" 8
.Ip "gethostbyname(NAME)" 8
.Ip "getnetbyname(NAME)" 8
.Ip "getprotobyname(NAME)" 8
.Ip "getpwuid(UID)" 8
.Ip "getgrgid(GID)" 8
.Ip "getservbyname(NAME,PROTO)" 8
.Ip "gethostbyaddr(ADDR,ADDRTYPE)" 8
.Ip "getnetbyaddr(ADDR,ADDRTYPE)" 8
.Ip "getprotobynumber(NUMBER)" 8
.Ip "getservbyport(PORT,PROTO)" 8
.Ip "getpwent" 8
.Ip "getgrent" 8
.Ip "gethostent" 8
.Ip "getnetent" 8
.Ip "getprotoent" 8
.Ip "getservent" 8
.Ip "setpwent" 8
.Ip "setgrent" 8
.Ip "sethostent(STAYOPEN)" 8
.Ip "setnetent(STAYOPEN)" 8
.Ip "setprotoent(STAYOPEN)" 8
.Ip "setservent(STAYOPEN)" 8
.Ip "endpwent" 8
.Ip "endgrent" 8
.Ip "endhostent" 8
.Ip "endnetent" 8
.Ip "endprotoent" 8
.Ip "endservent" 8
These routines perform the same functions as their counterparts in the
system library.
The return values from the various get routines are as follows:
.nf
($name,$passwd,$uid,$gid,
$quota,$comment,$gcos,$dir,$shell) = getpw.\|.\|.
($name,$passwd,$gid,$members) = getgr.\|.\|.
($name,$aliases,$addrtype,$length,@addrs) = gethost.\|.\|.
($name,$aliases,$addrtype,$net) = getnet.\|.\|.
($name,$aliases,$proto) = getproto.\|.\|.
($name,$aliases,$port,$proto) = getserv.\|.\|.
.fi
The $members value returned by getgr.\|.\|. is a space separated list
of the login names of the members of the group.
.Sp
The @addrs value returned by the gethost.\|.\|. functions is a list of the
raw addresses returned by the corresponding system library call.
In the Internet domain, each address is four bytes long and you can unpack
it by saying something like:
.nf
($a,$b,$c,$d) = unpack('C4',$addr[0]);
.fi
.Ip "getsockname(SOCKET)" 8 3
Returns the packed sockaddr address of this end of the SOCKET connection.
.nf
.ne 4
# An internet sockaddr
$sockaddr = 'S n a4 x8';
$mysockaddr = getsockname(S);
.ie t \{\
($family, $port, $myaddr) = unpack($sockaddr,$mysockaddr);
'br\}
.el \{\
($family, $port, $myaddr) =
unpack($sockaddr,$mysockaddr);
'br\}
.fi
.Ip "getsockopt(SOCKET,LEVEL,OPTNAME)" 8 3
Returns the socket option requested, or undefined if there is an error.
.Ip "gmtime(EXPR)" 8 4
.Ip "gmtime EXPR" 8
Converts a time as returned by the time function to a 9-element array with
the time analyzed for the Greenwich timezone.
Typically used as follows:
.nf
.ne 3
.ie t \{\
($sec,$min,$hour,$mday,$mon,$year,$wday,$yday,$isdst) = gmtime(time);
'br\}
.el \{\
($sec,$min,$hour,$mday,$mon,$year,$wday,$yday,$isdst) =
gmtime(time);
'br\}
.fi
All array elements are numeric, and come straight out of a struct tm.
In particular this means that $mon has the range 0.\|.11 and $wday has the
range 0.\|.6.
If EXPR is omitted, does gmtime(time).
.Ip "goto LABEL" 8 6
Finds the statement labeled with LABEL and resumes execution there.
Currently you may only go to statements in the main body of the program
that are not nested inside a do {} construct.
This statement is not implemented very efficiently, and is here only to make
the
.IR sed -to- perl
translator easier.
I may change its semantics at any time, consistent with support for translated
.I sed
scripts.
Use it at your own risk.
Better yet, don't use it at all.
.Ip "grep(EXPR,LIST)" 8 4
Evaluates EXPR for each element of LIST (locally setting $_ to each element)
and returns the array value consisting of those elements for which the
expression evaluated to true.
In a scalar context, returns the number of times the expression was true.
.nf
@foo = grep(!/^#/, @bar); # weed out comments
.fi
Note that, since $_ is a reference into the array value, it can be
used to modify the elements of the array.
While this is useful and supported, it can cause bizarre results if
the LIST is not a named array.
.Ip "hex(EXPR)" 8 4
.Ip "hex EXPR" 8
Returns the decimal value of EXPR interpreted as an hex string.
(To interpret strings that might start with 0 or 0x see oct().)
If EXPR is omitted, uses $_.
.Ip "index(STR,SUBSTR,POSITION)" 8 4
.Ip "index(STR,SUBSTR)" 8 4
Returns the position of the first occurrence of SUBSTR in STR at or after
POSITION.
If POSITION is omitted, starts searching from the beginning of the string.
The return value is based at 0, or whatever you've
set the $[ variable to.
If the substring is not found, returns one less than the base, ordinarily \-1.
.Ip "int(EXPR)" 8 4
.Ip "int EXPR" 8
Returns the integer portion of EXPR.
If EXPR is omitted, uses $_.
.Ip "ioctl(FILEHANDLE,FUNCTION,SCALAR)" 8 4
Implements the ioctl(2) function.
You'll probably have to say
.nf
require "ioctl.ph"; # probably /usr/local/lib/perl/ioctl.ph
.fi
first to get the correct function definitions.
If ioctl.ph doesn't exist or doesn't have the correct definitions
you'll have to roll
your own, based on your C header files such as <sys/ioctl.h>.
(There is a perl script called h2ph that comes with the perl kit
which may help you in this.)
SCALAR will be read and/or written depending on the FUNCTION\*(--a pointer
to the string value of SCALAR will be passed as the third argument of
the actual ioctl call.
(If SCALAR has no string value but does have a numeric value, that value
will be passed rather than a pointer to the string value.
To guarantee this to be true, add a 0 to the scalar before using it.)
The pack() and unpack() functions are useful for manipulating the values
of structures used by ioctl().
The following example sets the erase character to DEL.
.nf
.ne 9
require 'ioctl.ph';
$sgttyb_t = "ccccs"; # 4 chars and a short
if (ioctl(STDIN,$TIOCGETP,$sgttyb)) {
@ary = unpack($sgttyb_t,$sgttyb);
$ary[2] = 127;
$sgttyb = pack($sgttyb_t,@ary);
ioctl(STDIN,$TIOCSETP,$sgttyb)
|| die "Can't ioctl: $!";
}
.fi
The return value of ioctl (and fcntl) is as follows:
.nf
.ne 4
if OS returns:\h'|3i'perl returns:
-1\h'|3i' undefined value
0\h'|3i' string "0 but true"
anything else\h'|3i' that number
.fi
Thus perl returns true on success and false on failure, yet you can still
easily determine the actual value returned by the operating system:
.nf
($retval = ioctl(...)) || ($retval = -1);
printf "System returned %d\en", $retval;
.fi
.Ip "join(EXPR,LIST)" 8 8
.Ip "join(EXPR,ARRAY)" 8
Joins the separate strings of LIST or ARRAY into a single string with fields
separated by the value of EXPR, and returns the string.
Example:
.nf
.ie t \{\
$_ = join(\|\':\', $login,$passwd,$uid,$gid,$gcos,$home,$shell);
'br\}
.el \{\
$_ = join(\|\':\',
$login,$passwd,$uid,$gid,$gcos,$home,$shell);
'br\}
.fi
See
.IR split .
.Ip "keys(ASSOC_ARRAY)" 8 6
.Ip "keys ASSOC_ARRAY" 8
Returns a normal array consisting of all the keys of the named associative
array.
The keys are returned in an apparently random order, but it is the same order
as either the values() or each() function produces (given that the associative array
has not been modified).
Here is yet another way to print your environment:
.nf
.ne 5
@keys = keys %ENV;
@values = values %ENV;
while ($#keys >= 0) {
print pop(@keys), \'=\', pop(@values), "\en";
}
or how about sorted by key:
.ne 3
foreach $key (sort(keys %ENV)) {
print $key, \'=\', $ENV{$key}, "\en";
}
.fi
.Ip "kill(LIST)" 8 8
.Ip "kill LIST" 8 2
Sends a signal to a list of processes.
The first element of the list must be the signal to send.
Returns the number of processes successfully signaled.
.nf
$cnt = kill 1, $child1, $child2;
kill 9, @goners;
.fi
If the signal is negative, kills process groups instead of processes.
(On System V, a negative \fIprocess\fR number will also kill process groups,
but that's not portable.)
You may use a signal name in quotes.
.Ip "last LABEL" 8 8
.Ip "last" 8
The
.I last
command is like the
.I break
statement in C (as used in loops); it immediately exits the loop in question.
If the LABEL is omitted, the command refers to the innermost enclosing loop.
The
.I continue
block, if any, is not executed:
.nf
.ne 4
line: while (<STDIN>) {
last line if /\|^$/; # exit when done with header
.\|.\|.
}
.fi
.Ip "length(EXPR)" 8 4
.Ip "length EXPR" 8
Returns the length in characters of the value of EXPR.
If EXPR is omitted, returns length of $_.
.Ip "link(OLDFILE,NEWFILE)" 8 2
Creates a new filename linked to the old filename.
Returns 1 for success, 0 otherwise.
.Ip "listen(SOCKET,QUEUESIZE)" 8 2
Does the same thing that the listen system call does.
Returns true if it succeeded, false otherwise.
See example in section on Interprocess Communication.
.Ip "local(LIST)" 8 4
Declares the listed variables to be local to the enclosing block,
subroutine, eval or \*(L"do\*(R".
All the listed elements must be legal lvalues.
This operator works by saving the current values of those variables in LIST
on a hidden stack and restoring them upon exiting the block, subroutine or eval.
This means that called subroutines can also reference the local variable,
but not the global one.
The LIST may be assigned to if desired, which allows you to initialize
your local variables.
(If no initializer is given for a particular variable, it is created with
an undefined value.)
Commonly this is used to name the parameters to a subroutine.
Examples:
.nf
.ne 13
sub RANGEVAL {
local($min, $max, $thunk) = @_;
local($result) = \'\';
local($i);
# Presumably $thunk makes reference to $i
for ($i = $min; $i < $max; $i++) {
$result .= eval $thunk;
}
$result;
}
.ne 6
if ($sw eq \'-v\') {
# init local array with global array
local(@ARGV) = @ARGV;
unshift(@ARGV,\'echo\');
system @ARGV;
}
# @ARGV restored
.ne 6
# temporarily add to digits associative array
if ($base12) {
# (NOTE: not claiming this is efficient!)
local(%digits) = (%digits,'t',10,'e',11);
do parse_num();
}
.fi
Note that local() is a run-time command, and so gets executed every time
through a loop, using up more stack storage each time until it's all
released at once when the loop is exited.
.Ip "localtime(EXPR)" 8 4
.Ip "localtime EXPR" 8
Converts a time as returned by the time function to a 9-element array with
the time analyzed for the local timezone.
Typically used as follows:
.nf
.ne 3
.ie t \{\
($sec,$min,$hour,$mday,$mon,$year,$wday,$yday,$isdst) = localtime(time);
'br\}
.el \{\
($sec,$min,$hour,$mday,$mon,$year,$wday,$yday,$isdst) =
localtime(time);
'br\}
.fi
All array elements are numeric, and come straight out of a struct tm.
In particular this means that $mon has the range 0.\|.11 and $wday has the
range 0.\|.6.
If EXPR is omitted, does localtime(time).
.Ip "log(EXPR)" 8 4
.Ip "log EXPR" 8
Returns logarithm (base
.IR e )
of EXPR.
If EXPR is omitted, returns log of $_.
.Ip "lstat(FILEHANDLE)" 8 6
.Ip "lstat FILEHANDLE" 8
.Ip "lstat(EXPR)" 8
.Ip "lstat SCALARVARIABLE" 8
Does the same thing as the stat() function, but stats a symbolic link
instead of the file the symbolic link points to.
If symbolic links are unimplemented on your system, a normal stat is done.
.Ip "m/PATTERN/io" 8 4
.Ip "/PATTERN/io" 8
Searches a string for a pattern match, and returns true (1) or false (\'\').
If no string is specified via the =~ or !~ operator,
the $_ string is searched.
(The string specified with =~ need not be an lvalue\*(--it may be the result of an expression evaluation, but remember the =~ binds rather tightly.)
See also the section on regular expressions.
.Sp
If / is the delimiter then the initial \*(L'm\*(R' is optional.
With the \*(L'm\*(R' you can use any pair of non-alphanumeric characters
as delimiters.
This is particularly useful for matching Unix path names that contain \*(L'/\*(R'.
If the final delimiter is followed by the optional letter \*(L'i\*(R', the matching is
done in a case-insensitive manner.
PATTERN may contain references to scalar variables, which will be interpolated
(and the pattern recompiled) every time the pattern search is evaluated.
(Note that $) and $| may not be interpolated because they look like end-of-string tests.)
If you want such a pattern to be compiled only once, add an \*(L"o\*(R" after
the trailing delimiter.
This avoids expensive run-time recompilations, and
is useful when the value you are interpolating won't change over the
life of the script.
If the PATTERN evaluates to a null string, the most recent successful
regular expression is used instead.
.Sp
If used in a context that requires an array value, a pattern match returns an
array consisting of the subexpressions matched by the parentheses in the
pattern,
i.e. ($1, $2, $3.\|.\|.).
It does NOT actually set $1, $2, etc. in this case, nor does it set $+, $`, $&
or $'.
If the match fails, a null array is returned.
If the match succeeds, but there were no parentheses, an array value of (1)
is returned.
.Sp
Examples:
.nf
.ne 4
open(tty, \'/dev/tty\');
<tty> \|=~ \|/\|^y\|/i \|&& \|do foo(\|); # do foo if desired
if (/Version: \|*\|([0\-9.]*\|)\|/\|) { $version = $1; }
next if m#^/usr/spool/uucp#;
.ne 5
# poor man's grep
$arg = shift;
while (<>) {
print if /$arg/o; # compile only once
}
if (($F1, $F2, $Etc) = ($foo =~ /^(\eS+)\es+(\eS+)\es*(.*)/))
.fi
This last example splits $foo into the first two words and the remainder
of the line, and assigns those three fields to $F1, $F2 and $Etc.
The conditional is true if any variables were assigned, i.e. if the pattern
matched.
.Ip "mkdir(FILENAME,MODE)" 8 3
Creates the directory specified by FILENAME, with permissions specified by
MODE (as modified by umask).
If it succeeds it returns 1, otherwise it returns 0 and sets $! (errno).
.Ip "msgctl(ID,CMD,ARG)" 8 4
Calls the System V IPC function msgctl. If CMD is &IPC_STAT, then ARG
must be a variable which will hold the returned msqid_ds structure.
Returns like ioctl: the undefined value for error, "0 but true" for
zero, or the actual return value otherwise.
.Ip "msgget(KEY,FLAGS)" 8 4
Calls the System V IPC function msgget. Returns the message queue id,
or the undefined value if there is an error.
.Ip "msgsnd(ID,MSG,FLAGS)" 8 4
Calls the System V IPC function msgsnd to send the message MSG to the
message queue ID. MSG must begin with the long integer message type,
which may be created with pack("L", $type). Returns true if
successful, or false if there is an error.
.Ip "msgrcv(ID,VAR,SIZE,TYPE,FLAGS)" 8 4
Calls the System V IPC function msgrcv to receive a message from
message queue ID into variable VAR with a maximum message size of
SIZE. Note that if a message is received, the message type will be
the first thing in VAR, and the maximum length of VAR is SIZE plus the
size of the message type. Returns true if successful, or false if
there is an error.
''' Beginning of part 3
''' $Header: perl.man,v 4.0 91/03/20 01:38:08 lwall Locked $
'''
''' $Log: perl.man,v $
''' Revision 4.0 91/03/20 01:38:08 lwall
''' 4.0 baseline.
'''
''' Revision 3.0.1.12 91/01/11 18:18:15 lwall
''' patch42: added binary and hex pack/unpack options
'''
''' Revision 3.0.1.11 90/11/10 01:48:21 lwall
''' patch38: random cleanup
''' patch38: documented tr///cds
'''
''' Revision 3.0.1.10 90/10/20 02:15:17 lwall
''' patch37: patch37: fixed various typos in man page
'''
''' Revision 3.0.1.9 90/10/16 10:02:43 lwall
''' patch29: you can now read into the middle string
''' patch29: index and substr now have optional 3rd args
''' patch29: added scalar reverse
''' patch29: added scalar
''' patch29: added SysV IPC
''' patch29: added waitpid
''' patch29: added sysread and syswrite
'''
''' Revision 3.0.1.8 90/08/09 04:39:04 lwall
''' patch19: added require operator
''' patch19: added truncate operator
''' patch19: unpack can do checksumming
'''
''' Revision 3.0.1.7 90/08/03 11:15:42 lwall
''' patch19: Intermediate diffs for Randal
'''
''' Revision 3.0.1.6 90/03/27 16:17:56 lwall
''' patch16: MSDOS support
'''
''' Revision 3.0.1.5 90/03/12 16:52:21 lwall
''' patch13: documented that print $filehandle &foo is ambiguous
''' patch13: added splice operator: @oldelems = splice(@array,$offset,$len,LIST)
'''
''' Revision 3.0.1.4 90/02/28 18:00:09 lwall
''' patch9: added pipe function
''' patch9: documented how to handle arbitrary weird characters in filenames
''' patch9: documented the unflushed buffers problem on piped opens
''' patch9: documented how to force top of page
'''
''' Revision 3.0.1.3 89/12/21 20:10:12 lwall
''' patch7: documented that s`pat`repl` does command substitution on replacement
''' patch7: documented that $timeleft from select() is likely not implemented
'''
''' Revision 3.0.1.2 89/11/17 15:31:05 lwall
''' patch5: fixed some manual typos and indent problems
''' patch5: added warning about print making an array context
'''
''' Revision 3.0.1.1 89/11/11 04:45:06 lwall
''' patch2: made some line breaks depend on troff vs. nroff
'''
''' Revision 3.0 89/10/18 15:21:46 lwall
''' 3.0 baseline
'''
.Ip "next LABEL" 8 8
.Ip "next" 8
The
.I next
command is like the
.I continue
statement in C; it starts the next iteration of the loop:
.nf
.ne 4
line: while (<STDIN>) {
next line if /\|^#/; # discard comments
.\|.\|.
}
.fi
Note that if there were a
.I continue
block on the above, it would get executed even on discarded lines.
If the LABEL is omitted, the command refers to the innermost enclosing loop.
.Ip "oct(EXPR)" 8 4
.Ip "oct EXPR" 8
Returns the decimal value of EXPR interpreted as an octal string.
(If EXPR happens to start off with 0x, interprets it as a hex string instead.)
The following will handle decimal, octal and hex in the standard notation:
.nf
$val = oct($val) if $val =~ /^0/;
.fi
If EXPR is omitted, uses $_.
.Ip "open(FILEHANDLE,EXPR)" 8 8
.Ip "open(FILEHANDLE)" 8
.Ip "open FILEHANDLE" 8
Opens the file whose filename is given by EXPR, and associates it with
FILEHANDLE.
If FILEHANDLE is an expression, its value is used as the name of the
real filehandle wanted.
If EXPR is omitted, the scalar variable of the same name as the FILEHANDLE
contains the filename.
If the filename begins with \*(L"<\*(R" or nothing, the file is opened for
input.
If the filename begins with \*(L">\*(R", the file is opened for output.
If the filename begins with \*(L">>\*(R", the file is opened for appending.
(You can put a \'+\' in front of the \'>\' or \'<\' to indicate that you
want both read and write access to the file.)
If the filename begins with \*(L"|\*(R", the filename is interpreted
as a command to which output is to be piped, and if the filename ends
with a \*(L"|\*(R", the filename is interpreted as command which pipes
input to us.
(You may not have a command that pipes both in and out.)
Opening \'\-\' opens
.I STDIN
and opening \'>\-\' opens
.IR STDOUT .
Open returns non-zero upon success, the undefined value otherwise.
If the open involved a pipe, the return value happens to be the pid
of the subprocess.
Examples:
.nf
.ne 3
$article = 100;
open article || die "Can't find article $article: $!\en";
while (<article>) {\|.\|.\|.
.ie t \{\
open(LOG, \'>>/usr/spool/news/twitlog\'\|); # (log is reserved)
'br\}
.el \{\
open(LOG, \'>>/usr/spool/news/twitlog\'\|);
# (log is reserved)
'br\}
.ie t \{\
open(article, "caesar <$article |"\|); # decrypt article
'br\}
.el \{\
open(article, "caesar <$article |"\|);
# decrypt article
'br\}
.ie t \{\
open(extract, "|sort >/tmp/Tmp$$"\|); # $$ is our process#
'br\}
.el \{\
open(extract, "|sort >/tmp/Tmp$$"\|);
# $$ is our process#
'br\}
.ne 7
# process argument list of files along with any includes
foreach $file (@ARGV) {
do process($file, \'fh00\'); # no pun intended
}
sub process {
local($filename, $input) = @_;
$input++; # this is a string increment
unless (open($input, $filename)) {
print STDERR "Can't open $filename: $!\en";
return;
}
.ie t \{\
while (<$input>) { # note the use of indirection
'br\}
.el \{\
while (<$input>) { # note use of indirection
'br\}
if (/^#include "(.*)"/) {
do process($1, $input);
next;
}
.\|.\|. # whatever
}
}
.fi
You may also, in the Bourne shell tradition, specify an EXPR beginning
with \*(L">&\*(R", in which case the rest of the string
is interpreted as the name of a filehandle
(or file descriptor, if numeric) which is to be duped and opened.
You may use & after >, >>, <, +>, +>> and +<.
The mode you specify should match the mode of the original filehandle.
Here is a script that saves, redirects, and restores
.I STDOUT
and
.IR STDERR :
.nf
.ne 21
#!/usr/bin/perl
open(SAVEOUT, ">&STDOUT");
open(SAVEERR, ">&STDERR");
open(STDOUT, ">foo.out") || die "Can't redirect stdout";
open(STDERR, ">&STDOUT") || die "Can't dup stdout";
select(STDERR); $| = 1; # make unbuffered
select(STDOUT); $| = 1; # make unbuffered
print STDOUT "stdout 1\en"; # this works for
print STDERR "stderr 1\en"; # subprocesses too
close(STDOUT);
close(STDERR);
open(STDOUT, ">&SAVEOUT");
open(STDERR, ">&SAVEERR");
print STDOUT "stdout 2\en";
print STDERR "stderr 2\en";
.fi
If you open a pipe on the command \*(L"\-\*(R", i.e. either \*(L"|\-\*(R" or \*(L"\-|\*(R",
then there is an implicit fork done, and the return value of open
is the pid of the child within the parent process, and 0 within the child
process.
(Use defined($pid) to determine if the open was successful.)
The filehandle behaves normally for the parent, but i/o to that
filehandle is piped from/to the
.IR STDOUT / STDIN
of the child process.
In the child process the filehandle isn't opened\*(--i/o happens from/to
the new
.I STDOUT
or
.IR STDIN .
Typically this is used like the normal piped open when you want to exercise
more control over just how the pipe command gets executed, such as when
you are running setuid, and don't want to have to scan shell commands
for metacharacters.
The following pairs are more or less equivalent:
.nf
.ne 5
open(FOO, "|tr \'[a\-z]\' \'[A\-Z]\'");
open(FOO, "|\-") || exec \'tr\', \'[a\-z]\', \'[A\-Z]\';
open(FOO, "cat \-n '$file'|");
open(FOO, "\-|") || exec \'cat\', \'\-n\', $file;
.fi
Explicitly closing any piped filehandle causes the parent process to wait for the
child to finish, and returns the status value in $?.
Note: on any operation which may do a fork,
unflushed buffers remain unflushed in both
processes, which means you may need to set $| to
avoid duplicate output.
.Sp
The filename that is passed to open will have leading and trailing
whitespace deleted.
In order to open a file with arbitrary weird characters in it, it's necessary
to protect any leading and trailing whitespace thusly:
.nf
.ne 2
$file =~ s#^(\es)#./$1#;
open(FOO, "< $file\e0");
.fi
.Ip "opendir(DIRHANDLE,EXPR)" 8 3
Opens a directory named EXPR for processing by readdir(), telldir(), seekdir(),
rewinddir() and closedir().
Returns true if successful.
DIRHANDLEs have their own namespace separate from FILEHANDLEs.
.Ip "ord(EXPR)" 8 4
.Ip "ord EXPR" 8
Returns the numeric ascii value of the first character of EXPR.
If EXPR is omitted, uses $_.
''' Comments on f & d by gnb@melba.bby.oz.au 22/11/89
.Ip "pack(TEMPLATE,LIST)" 8 4
Takes an array or list of values and packs it into a binary structure,
returning the string containing the structure.
The TEMPLATE is a sequence of characters that give the order and type
of values, as follows:
.nf
A An ascii string, will be space padded.
a An ascii string, will be null padded.
c A signed char value.
C An unsigned char value.
s A signed short value.
S An unsigned short value.
i A signed integer value.
I An unsigned integer value.
l A signed long value.
L An unsigned long value.
n A short in \*(L"network\*(R" order.
N A long in \*(L"network\*(R" order.
f A single-precision float in the native format.
d A double-precision float in the native format.
p A pointer to a string.
x A null byte.
X Back up a byte.
@ Null fill to absolute position.
u A uuencoded string.
b A bit string (ascending bit order, like vec()).
B A bit string (descending bit order).
h A hex string (low nybble first).
H A hex string (high nybble first).
.fi
Each letter may optionally be followed by a number which gives a repeat
count.
With all types except "a", "A", "b", "B", "h" and "H",
the pack function will gobble up that many values
from the LIST.
A * for the repeat count means to use however many items are left.
The "a" and "A" types gobble just one value, but pack it as a string of length
count,
padding with nulls or spaces as necessary.
(When unpacking, "A" strips trailing spaces and nulls, but "a" does not.)
Likewise, the "b" and "B" fields pack a string that many bits long.
The "h" and "H" fields pack a string that many nybbles long.
Real numbers (floats and doubles) are in the native machine format
only; due to the multiplicity of floating formats around, and the lack
of a standard \*(L"network\*(R" representation, no facility for
interchange has been made.
This means that packed floating point data
written on one machine may not be readable on another - even if both
use IEEE floating point arithmetic (as the endian-ness of the memory
representation is not part of the IEEE spec).
Note that perl uses
doubles internally for all numeric calculation, and converting from
double -> float -> double will lose precision (i.e. unpack("f",
pack("f", $foo)) will not in general equal $foo).
.br
Examples:
.nf
$foo = pack("cccc",65,66,67,68);
# foo eq "ABCD"
$foo = pack("c4",65,66,67,68);
# same thing
$foo = pack("ccxxcc",65,66,67,68);
# foo eq "AB\e0\e0CD"
$foo = pack("s2",1,2);
# "\e1\e0\e2\e0" on little-endian
# "\e0\e1\e0\e2" on big-endian
$foo = pack("a4","abcd","x","y","z");
# "abcd"
$foo = pack("aaaa","abcd","x","y","z");
# "axyz"
$foo = pack("a14","abcdefg");
# "abcdefg\e0\e0\e0\e0\e0\e0\e0"
$foo = pack("i9pl", gmtime);
# a real struct tm (on my system anyway)
sub bintodec {
unpack("N", pack("B32", substr("0" x 32 . shift, -32)));
}
.fi
The same template may generally also be used in the unpack function.
.Ip "pipe(READHANDLE,WRITEHANDLE)" 8 3
Opens a pair of connected pipes like the corresponding system call.
Note that if you set up a loop of piped processes, deadlock can occur
unless you are very careful.
In addition, note that perl's pipes use stdio buffering, so you may need
to set $| to flush your WRITEHANDLE after each command, depending on
the application.
[Requires version 3.0 patchlevel 9.]
.Ip "pop(ARRAY)" 8
.Ip "pop ARRAY" 8 6
Pops and returns the last value of the array, shortening the array by 1.
Has the same effect as
.nf
$tmp = $ARRAY[$#ARRAY\-\|\-];
.fi
If there are no elements in the array, returns the undefined value.
.Ip "print(FILEHANDLE LIST)" 8 10
.Ip "print(LIST)" 8
.Ip "print FILEHANDLE LIST" 8
.Ip "print LIST" 8
.Ip "print" 8
Prints a string or a comma-separated list of strings.
Returns non-zero if successful.
FILEHANDLE may be a scalar variable name, in which case the variable contains
the name of the filehandle, thus introducing one level of indirection.
(NOTE: If FILEHANDLE is a variable and the next token is a term, it may be
misinterpreted as an operator unless you interpose a + or put parens around
the arguments.)
If FILEHANDLE is omitted, prints by default to standard output (or to the
last selected output channel\*(--see select()).
If LIST is also omitted, prints $_ to
.IR STDOUT .
To set the default output channel to something other than
.I STDOUT
use the select operation.
Note that, because print takes a LIST, anything in the LIST is evaluated
in an array context, and any subroutine that you call will have one or more
of its expressions evaluated in an array context.
Also be careful not to follow the print keyword with a left parenthesis
unless you want the corresponding right parenthesis to terminate the
arguments to the print\*(--interpose a + or put parens around all the arguments.
.Ip "printf(FILEHANDLE LIST)" 8 10
.Ip "printf(LIST)" 8
.Ip "printf FILEHANDLE LIST" 8
.Ip "printf LIST" 8
Equivalent to a \*(L"print FILEHANDLE sprintf(LIST)\*(R".
.Ip "push(ARRAY,LIST)" 8 7
Treats ARRAY (@ is optional) as a stack, and pushes the values of LIST
onto the end of ARRAY.
The length of ARRAY increases by the length of LIST.
Has the same effect as
.nf
for $value (LIST) {
$ARRAY[++$#ARRAY] = $value;
}
.fi
but is more efficient.
.Ip "q/STRING/" 8 5
.Ip "qq/STRING/" 8
.Ip "qx/STRING/" 8
These are not really functions, but simply syntactic sugar to let you
avoid putting too many backslashes into quoted strings.
The q operator is a generalized single quote, and the qq operator a
generalized double quote.
The qx operator is a generalized backquote.
Any non-alphanumeric delimiter can be used in place of /, including newline.
If the delimiter is an opening bracket or parenthesis, the final delimiter
will be the corresponding closing bracket or parenthesis.
(Embedded occurrences of the closing bracket need to be backslashed as usual.)
Examples:
.nf
.ne 5
$foo = q!I said, "You said, \'She said it.\'"!;
$bar = q(\'This is it.\');
$today = qx{ date };
$_ .= qq
*** The previous line contains the naughty word "$&".\en
if /(ibm|apple|awk)/; # :-)
.fi
.Ip "rand(EXPR)" 8 8
.Ip "rand EXPR" 8
.Ip "rand" 8
Returns a random fractional number between 0 and the value of EXPR.
(EXPR should be positive.)
If EXPR is omitted, returns a value between 0 and 1.
See also srand().
.Ip "read(FILEHANDLE,SCALAR,LENGTH,OFFSET)" 8 5
.Ip "read(FILEHANDLE,SCALAR,LENGTH)" 8 5
Attempts to read LENGTH bytes of data into variable SCALAR from the specified
FILEHANDLE.
Returns the number of bytes actually read, or undef if there was an error.
SCALAR will be grown or shrunk to the length actually read.
An OFFSET may be specified to place the read data at some other place
than the beginning of the string.
This call is actually implemented in terms of stdio's fread call. To get
a true read system call, see sysread.
.Ip "readdir(DIRHANDLE)" 8 3
.Ip "readdir DIRHANDLE" 8
Returns the next directory entry for a directory opened by opendir().
If used in an array context, returns all the rest of the entries in the
directory.
If there are no more entries, returns an undefined value in a scalar context
or a null list in an array context.
.Ip "readlink(EXPR)" 8 6
.Ip "readlink EXPR" 8
Returns the value of a symbolic link, if symbolic links are implemented.
If not, gives a fatal error.
If there is some system error, returns the undefined value and sets $! (errno).
If EXPR is omitted, uses $_.
.Ip "recv(SOCKET,SCALAR,LEN,FLAGS)" 8 4
Receives a message on a socket.
Attempts to receive LENGTH bytes of data into variable SCALAR from the specified
SOCKET filehandle.
Returns the address of the sender, or the undefined value if there's an error.
SCALAR will be grown or shrunk to the length actually read.
Takes the same flags as the system call of the same name.
.Ip "redo LABEL" 8 8
.Ip "redo" 8
The
.I redo
command restarts the loop block without evaluating the conditional again.
The
.I continue
block, if any, is not executed.
If the LABEL is omitted, the command refers to the innermost enclosing loop.
This command is normally used by programs that want to lie to themselves
about what was just input:
.nf
.ne 16
# a simpleminded Pascal comment stripper
# (warning: assumes no { or } in strings)
line: while (<STDIN>) {
while (s|\|({.*}.*\|){.*}|$1 \||) {}
s|{.*}| \||;
if (s|{.*| \||) {
$front = $_;
while (<STDIN>) {
if (\|/\|}/\|) { # end of comment?
s|^|$front{|;
redo line;
}
}
}
print;
}
.fi
.Ip "rename(OLDNAME,NEWNAME)" 8 2
Changes the name of a file.
Returns 1 for success, 0 otherwise.
Will not work across filesystem boundaries.
.Ip "require(EXPR)" 8 6
.Ip "require EXPR" 8
.Ip "require" 8
Includes the library file specified by EXPR, or by $_ if EXPR is not supplied.
Has semantics similar to the following subroutine:
.nf
sub require {
local($filename) = @_;
return 1 if $INC{$filename};
local($realfilename,$result);
ITER: {
foreach $prefix (@INC) {
$realfilename = "$prefix/$filename";
if (-f $realfilename) {
$result = do $realfilename;
last ITER;
}
}
die "Can't find $filename in \e@INC";
}
die $@ if $@;
die "$filename did not return true value" unless $result;
$INC{$filename} = $realfilename;
$result;
}
.fi
Note that the file will not be included twice under the same specified name.
.Ip "reset(EXPR)" 8 6
.Ip "reset EXPR" 8
.Ip "reset" 8
Generally used in a
.I continue
block at the end of a loop to clear variables and reset ?? searches
so that they work again.
The expression is interpreted as a list of single characters (hyphens allowed
for ranges).
All variables and arrays beginning with one of those letters are reset to
their pristine state.
If the expression is omitted, one-match searches (?pattern?) are reset to
match again.
Only resets variables or searches in the current package.
Always returns 1.
Examples:
.nf
.ne 3
reset \'X\'; \h'|2i'# reset all X variables
reset \'a\-z\';\h'|2i'# reset lower case variables
reset; \h'|2i'# just reset ?? searches
.fi
Note: resetting \*(L"A\-Z\*(R" is not recommended since you'll wipe out your ARGV and ENV
arrays.
.Sp
The use of reset on dbm associative arrays does not change the dbm file.
(It does, however, flush any entries cached by perl, which may be useful if
you are sharing the dbm file.
Then again, maybe not.)
.Ip "return LIST" 8 3
Returns from a subroutine with the value specified.
(Note that a subroutine can automatically return
the value of the last expression evaluated.
That's the preferred method\*(--use of an explicit
.I return
is a bit slower.)
.Ip "reverse(LIST)" 8 4
.Ip "reverse LIST" 8
In an array context, returns an array value consisting of the elements
of LIST in the opposite order.
In a scalar context, returns a string value consisting of the bytes of
the first element of LIST in the opposite order.
.Ip "rewinddir(DIRHANDLE)" 8 5
.Ip "rewinddir DIRHANDLE" 8
Sets the current position to the beginning of the directory for the readdir() routine on DIRHANDLE.
.Ip "rindex(STR,SUBSTR,POSITION)" 8 6
.Ip "rindex(STR,SUBSTR)" 8 4
Works just like index except that it
returns the position of the LAST occurrence of SUBSTR in STR.
If POSITION is specified, returns the last occurrence at or before that
position.
.Ip "rmdir(FILENAME)" 8 4
.Ip "rmdir FILENAME" 8
Deletes the directory specified by FILENAME if it is empty.
If it succeeds it returns 1, otherwise it returns 0 and sets $! (errno).
If FILENAME is omitted, uses $_.
.Ip "s/PATTERN/REPLACEMENT/gieo" 8 3
Searches a string for a pattern, and if found, replaces that pattern with the
replacement text and returns the number of substitutions made.
Otherwise it returns false (0).
The \*(L"g\*(R" is optional, and if present, indicates that all occurrences
of the pattern are to be replaced.
The \*(L"i\*(R" is also optional, and if present, indicates that matching
is to be done in a case-insensitive manner.
The \*(L"e\*(R" is likewise optional, and if present, indicates that
the replacement string is to be evaluated as an expression rather than just
as a double-quoted string.
Any non-alphanumeric delimiter may replace the slashes;
if single quotes are used, no
interpretation is done on the replacement string (the e modifier overrides
this, however); if backquotes are used, the replacement string is a command
to execute whose output will be used as the actual replacement text.
If no string is specified via the =~ or !~ operator,
the $_ string is searched and modified.
(The string specified with =~ must be a scalar variable, an array element,
or an assignment to one of those, i.e. an lvalue.)
If the pattern contains a $ that looks like a variable rather than an
end-of-string test, the variable will be interpolated into the pattern at
run-time.
If you only want the pattern compiled once the first time the variable is
interpolated, add an \*(L"o\*(R" at the end.
If the PATTERN evaluates to a null string, the most recent successful
regular expression is used instead.
See also the section on regular expressions.
Examples:
.nf
s/\|\e\|bgreen\e\|b/mauve/g; # don't change wintergreen
$path \|=~ \|s|\|/usr/bin|\|/usr/local/bin|;
s/Login: $foo/Login: $bar/; # run-time pattern
($foo = $bar) =~ s/bar/foo/;
$_ = \'abc123xyz\';
s/\ed+/$&*2/e; # yields \*(L'abc246xyz\*(R'
s/\ed+/sprintf("%5d",$&)/e; # yields \*(L'abc 246xyz\*(R'
s/\ew/$& x 2/eg; # yields \*(L'aabbcc 224466xxyyzz\*(R'
s/\|([^ \|]*\|) *\|([^ \|]*\|)\|/\|$2 $1/; # reverse 1st two fields
.fi
(Note the use of $ instead of \|\e\| in the last example. See section
on regular expressions.)
.Ip "scalar(EXPR)" 8 3
Forces EXPR to be interpreted in a scalar context and returns the value
of EXPR.
.Ip "seek(FILEHANDLE,POSITION,WHENCE)" 8 3
Randomly positions the file pointer for FILEHANDLE, just like the fseek()
call of stdio.
FILEHANDLE may be an expression whose value gives the name of the filehandle.
Returns 1 upon success, 0 otherwise.
.Ip "seekdir(DIRHANDLE,POS)" 8 3
Sets the current position for the readdir() routine on DIRHANDLE.
POS must be a value returned by telldir().
Has the same caveats about possible directory compaction as the corresponding
system library routine.
.Ip "select(FILEHANDLE)" 8 3
.Ip "select" 8 3
Returns the currently selected filehandle.
Sets the current default filehandle for output, if FILEHANDLE is supplied.
This has two effects: first, a
.I write
or a
.I print
without a filehandle will default to this FILEHANDLE.
Second, references to variables related to output will refer to this output
channel.
For example, if you have to set the top of form format for more than
one output channel, you might do the following:
.nf
.ne 4
select(REPORT1);
$^ = \'report1_top\';
select(REPORT2);
$^ = \'report2_top\';
.fi
FILEHANDLE may be an expression whose value gives the name of the actual filehandle.
Thus:
.nf
$oldfh = select(STDERR); $| = 1; select($oldfh);
.fi
.Ip "select(RBITS,WBITS,EBITS,TIMEOUT)" 8 3
This calls the select system call with the bitmasks specified, which can
be constructed using fileno() and vec(), along these lines:
.nf
$rin = $win = $ein = '';
vec($rin,fileno(STDIN),1) = 1;
vec($win,fileno(STDOUT),1) = 1;
$ein = $rin | $win;
.fi
If you want to select on many filehandles you might wish to write a subroutine:
.nf
sub fhbits {
local(@fhlist) = split(' ',$_[0]);
local($bits);
for (@fhlist) {
vec($bits,fileno($_),1) = 1;
}
$bits;
}
$rin = &fhbits('STDIN TTY SOCK');
.fi
The usual idiom is:
.nf
($nfound,$timeleft) =
select($rout=$rin, $wout=$win, $eout=$ein, $timeout);
or to block until something becomes ready:
.ie t \{\
$nfound = select($rout=$rin, $wout=$win, $eout=$ein, undef);
'br\}
.el \{\
$nfound = select($rout=$rin, $wout=$win,
$eout=$ein, undef);
'br\}
.fi
Any of the bitmasks can also be undef.
The timeout, if specified, is in seconds, which may be fractional.
NOTE: not all implementations are capable of returning the $timeleft.
If not, they always return $timeleft equal to the supplied $timeout.
.Ip "semctl(ID,SEMNUM,CMD,ARG)" 8 4
Calls the System V IPC function semctl. If CMD is &IPC_STAT or
&GETALL, then ARG must be a variable which will hold the returned
semid_ds structure or semaphore value array. Returns like ioctl: the
undefined value for error, "0 but true" for zero, or the actual return
value otherwise.
.Ip "semget(KEY,NSEMS,SIZE,FLAGS)" 8 4
Calls the System V IPC function semget. Returns the semaphore id, or
the undefined value if there is an error.
.Ip "semop(KEY,OPSTRING)" 8 4
Calls the System V IPC function semop to perform semaphore operations
such as signaling and waiting. OPSTRING must be a packed array of
semop structures. Each semop structure can be generated with
\&'pack("sss", $semnum, $semop, $semflag)'. The number of semaphore
operations is implied by the length of OPSTRING. Returns true if
successful, or false if there is an error. As an example, the
following code waits on semaphore $semnum of semaphore id $semid:
.nf
$semop = pack("sss", $semnum, -1, 0);
die "Semaphore trouble: $!\en" unless semop($semid, $semop);
.fi
To signal the semaphore, replace "-1" with "1".
.Ip "send(SOCKET,MSG,FLAGS,TO)" 8 4
.Ip "send(SOCKET,MSG,FLAGS)" 8
Sends a message on a socket.
Takes the same flags as the system call of the same name.
On unconnected sockets you must specify a destination to send TO.
Returns the number of characters sent, or the undefined value if
there is an error.
.Ip "setpgrp(PID,PGRP)" 8 4
Sets the current process group for the specified PID, 0 for the current
process.
Will produce a fatal error if used on a machine that doesn't implement
setpgrp(2).
.Ip "setpriority(WHICH,WHO,PRIORITY)" 8 4
Sets the current priority for a process, a process group, or a user.
(See setpriority(2).)
Will produce a fatal error if used on a machine that doesn't implement
setpriority(2).
.Ip "setsockopt(SOCKET,LEVEL,OPTNAME,OPTVAL)" 8 3
Sets the socket option requested.
Returns undefined if there is an error.
OPTVAL may be specified as undef if you don't want to pass an argument.
.Ip "shift(ARRAY)" 8 6
.Ip "shift ARRAY" 8
.Ip "shift" 8
Shifts the first value of the array off and returns it,
shortening the array by 1 and moving everything down.
If there are no elements in the array, returns the undefined value.
If ARRAY is omitted, shifts the @ARGV array in the main program, and the @_
array in subroutines.
(This is determined lexically.)
See also unshift(), push() and pop().
Shift() and unshift() do the same thing to the left end of an array that push()
and pop() do to the right end.
.Ip "shmctl(ID,CMD,ARG)" 8 4
Calls the System V IPC function shmctl. If CMD is &IPC_STAT, then ARG
must be a variable which will hold the returned shmid_ds structure.
Returns like ioctl: the undefined value for error, "0 but true" for
zero, or the actual return value otherwise.
.Ip "shmget(KEY,SIZE,FLAGS)" 8 4
Calls the System V IPC function shmget. Returns the shared memory
segment id, or the undefined value if there is an error.
.Ip "shmread(ID,VAR,POS,SIZE)" 8 4
.Ip "shmwrite(ID,STRING,POS,SIZE)" 8
Reads or writes the System V shared memory segment ID starting at
position POS for size SIZE by attaching to it, copying in/out, and
detaching from it. When reading, VAR must be a variable which
will hold the data read. When writing, if STRING is too long,
only SIZE bytes are used; if STRING is too short, nulls are
written to fill out SIZE bytes. Return true if successful, or
false if there is an error.
.Ip "shutdown(SOCKET,HOW)" 8 3
Shuts down a socket connection in the manner indicated by HOW, which has
the same interpretation as in the system call of the same name.
.Ip "sin(EXPR)" 8 4
.Ip "sin EXPR" 8
Returns the sine of EXPR (expressed in radians).
If EXPR is omitted, returns sine of $_.
.Ip "sleep(EXPR)" 8 6
.Ip "sleep EXPR" 8
.Ip "sleep" 8
Causes the script to sleep for EXPR seconds, or forever if no EXPR.
May be interrupted by sending the process a SIGALARM.
Returns the number of seconds actually slept.
.Ip "socket(SOCKET,DOMAIN,TYPE,PROTOCOL)" 8 3
Opens a socket of the specified kind and attaches it to filehandle SOCKET.
DOMAIN, TYPE and PROTOCOL are specified the same as for the system call
of the same name.
You may need to run h2ph on sys/socket.h to get the proper values handy
in a perl library file.
Return true if successful.
See the example in the section on Interprocess Communication.
.Ip "socketpair(SOCKET1,SOCKET2,DOMAIN,TYPE,PROTOCOL)" 8 3
Creates an unnamed pair of sockets in the specified domain, of the specified
type.
DOMAIN, TYPE and PROTOCOL are specified the same as for the system call
of the same name.
If unimplemented, yields a fatal error.
Return true if successful.
.Ip "sort(SUBROUTINE LIST)" 8 9
.Ip "sort(LIST)" 8
.Ip "sort SUBROUTINE LIST" 8
.Ip "sort LIST" 8
Sorts the LIST and returns the sorted array value.
Nonexistent values of arrays are stripped out.
If SUBROUTINE is omitted, sorts in standard string comparison order.
If SUBROUTINE is specified, gives the name of a subroutine that returns
an integer less than, equal to, or greater than 0,
depending on how the elements of the array are to be ordered.
In the interests of efficiency the normal calling code for subroutines
is bypassed, with the following effects: the subroutine may not be a recursive
subroutine, and the two elements to be compared are passed into the subroutine
not via @_ but as $a and $b (see example below).
They are passed by reference so don't modify $a and $b.
SUBROUTINE may be a scalar variable name, in which case the value provides
the name of the subroutine to use.
Examples:
.nf
.ne 4
sub byage {
$age{$a} - $age{$b}; # presuming integers
}
@sortedclass = sort byage @class;
.ne 9
sub reverse { $a lt $b ? 1 : $a gt $b ? \-1 : 0; }
@harry = (\'dog\',\'cat\',\'x\',\'Cain\',\'Abel\');
@george = (\'gone\',\'chased\',\'yz\',\'Punished\',\'Axed\');
print sort @harry;
# prints AbelCaincatdogx
print sort reverse @harry;
# prints xdogcatCainAbel
print sort @george, \'to\', @harry;
# prints AbelAxedCainPunishedcatchaseddoggonetoxyz
.fi
.Ip "splice(ARRAY,OFFSET,LENGTH,LIST)" 8 8
.Ip "splice(ARRAY,OFFSET,LENGTH)" 8
.Ip "splice(ARRAY,OFFSET)" 8
Removes the elements designated by OFFSET and LENGTH from an array, and
replaces them with the elements of LIST, if any.
Returns the elements removed from the array.
The array grows or shrinks as necessary.
If LENGTH is omitted, removes everything from OFFSET onward.
The following equivalencies hold (assuming $[ == 0):
.nf
push(@a,$x,$y)\h'|3.5i'splice(@a,$#a+1,0,$x,$y)
pop(@a)\h'|3.5i'splice(@a,-1)
shift(@a)\h'|3.5i'splice(@a,0,1)
unshift(@a,$x,$y)\h'|3.5i'splice(@a,0,0,$x,$y)
$a[$x] = $y\h'|3.5i'splice(@a,$x,1,$y);
Example, assuming array lengths are passed before arrays:
sub aeq { # compare two array values
local(@a) = splice(@_,0,shift);
local(@b) = splice(@_,0,shift);
return 0 unless @a == @b; # same len?
while (@a) {
return 0 if pop(@a) ne pop(@b);
}
return 1;
}
if (&aeq($len,@foo[1..$len],0+@bar,@bar)) { ... }
.fi
.Ip "split(/PATTERN/,EXPR,LIMIT)" 8 8
.Ip "split(/PATTERN/,EXPR)" 8 8
.Ip "split(/PATTERN/)" 8
.Ip "split" 8
Splits a string into an array of strings, and returns it.
(If not in an array context, returns the number of fields found and splits
into the @_ array.
(In an array context, you can force the split into @_
by using ?? as the pattern delimiters, but it still returns the array value.))
If EXPR is omitted, splits the $_ string.
If PATTERN is also omitted, splits on whitespace (/[\ \et\en]+/).
Anything matching PATTERN is taken to be a delimiter separating the fields.
(Note that the delimiter may be longer than one character.)
If LIMIT is specified, splits into no more than that many fields (though it
may split into fewer).
If LIMIT is unspecified, trailing null fields are stripped (which
potential users of pop() would do well to remember).
A pattern matching the null string (not to be confused with a null pattern //,
which is just one member of the set of patterns matching a null string)
will split the value of EXPR into separate characters at each point it
matches that way.
For example:
.nf
print join(\':\', split(/ */, \'hi there\'));
.fi
produces the output \*(L'h:i:t:h:e:r:e\*(R'.
.Sp
The LIMIT parameter can be used to partially split a line
.nf
($login, $passwd, $remainder) = split(\|/\|:\|/\|, $_, 3);
.fi
(When assigning to a list, if LIMIT is omitted, perl supplies a LIMIT one
larger than the number of variables in the list, to avoid unnecessary work.
For the list above LIMIT would have been 4 by default.
In time critical applications it behooves you not to split into
more fields than you really need.)
.Sp
If the PATTERN contains parentheses, additional array elements are created
from each matching substring in the delimiter.
.Sp
split(/([,-])/,"1-10,20");
.Sp
produces the array value
.Sp
(1,'-',10,',',20)
.Sp
The pattern /PATTERN/ may be replaced with an expression to specify patterns
that vary at runtime.
(To do runtime compilation only once, use /$variable/o.)
As a special case, specifying a space (\'\ \') will split on white space
just as split with no arguments does, but leading white space does NOT
produce a null first field.
Thus, split(\'\ \') can be used to emulate
.IR awk 's
default behavior, whereas
split(/\ /) will give you as many null initial fields as there are
leading spaces.
.Sp
Example:
.nf
.ne 5
open(passwd, \'/etc/passwd\');
while (<passwd>) {
.ie t \{\
($login, $passwd, $uid, $gid, $gcos, $home, $shell) = split(\|/\|:\|/\|);
'br\}
.el \{\
($login, $passwd, $uid, $gid, $gcos, $home, $shell)
= split(\|/\|:\|/\|);
'br\}
.\|.\|.
}
.fi
(Note that $shell above will still have a newline on it. See chop().)
See also
.IR join .
.Ip "sprintf(FORMAT,LIST)" 8 4
Returns a string formatted by the usual printf conventions.
The * character is not supported.
.Ip "sqrt(EXPR)" 8 4
.Ip "sqrt EXPR" 8
Return the square root of EXPR.
If EXPR is omitted, returns square root of $_.
.Ip "srand(EXPR)" 8 4
.Ip "srand EXPR" 8
Sets the random number seed for the
.I rand
operator.
If EXPR is omitted, does srand(time).
.Ip "stat(FILEHANDLE)" 8 8
.Ip "stat FILEHANDLE" 8
.Ip "stat(EXPR)" 8
.Ip "stat SCALARVARIABLE" 8
Returns a 13-element array giving the statistics for a file, either the file
opened via FILEHANDLE, or named by EXPR.
Typically used as follows:
.nf
.ne 3
($dev,$ino,$mode,$nlink,$uid,$gid,$rdev,$size,
$atime,$mtime,$ctime,$blksize,$blocks)
= stat($filename);
.fi
If stat is passed the special filehandle consisting of an underline,
no stat is done, but the current contents of the stat structure from
the last stat or filetest are returned.
Example:
.nf
.ne 3
if (-x $file && (($d) = stat(_)) && $d < 0) {
print "$file is executable NFS file\en";
}
.fi
.Ip "study(SCALAR)" 8 6
.Ip "study SCALAR" 8
.Ip "study"
Takes extra time to study SCALAR ($_ if unspecified) in anticipation of
doing many pattern matches on the string before it is next modified.
This may or may not save time, depending on the nature and number of patterns
you are searching on, and on the distribution of character frequencies in
the string to be searched\*(--you probably want to compare runtimes with and
without it to see which runs faster.
Those loops which scan for many short constant strings (including the constant
parts of more complex patterns) will benefit most.
You may have only one study active at a time\*(--if you study a different
scalar the first is \*(L"unstudied\*(R".
(The way study works is this: a linked list of every character in the string
to be searched is made, so we know, for example, where all the \*(L'k\*(R' characters
are.
From each search string, the rarest character is selected, based on some
static frequency tables constructed from some C programs and English text.
Only those places that contain this \*(L"rarest\*(R" character are examined.)
.Sp
For example, here is a loop which inserts index producing entries before any line
containing a certain pattern:
.nf
.ne 8
while (<>) {
study;
print ".IX foo\en" if /\ebfoo\eb/;
print ".IX bar\en" if /\ebbar\eb/;
print ".IX blurfl\en" if /\ebblurfl\eb/;
.\|.\|.
print;
}
.fi
In searching for /\ebfoo\eb/, only those locations in $_ that contain \*(L'f\*(R'
will be looked at, because \*(L'f\*(R' is rarer than \*(L'o\*(R'.
In general, this is a big win except in pathological cases.
The only question is whether it saves you more time than it took to build
the linked list in the first place.
.Sp
Note that if you have to look for strings that you don't know till runtime,
you can build an entire loop as a string and eval that to avoid recompiling
all your patterns all the time.
Together with undefining $/ to input entire files as one record, this can
be very fast, often faster than specialized programs like fgrep.
The following scans a list of files (@files)
for a list of words (@words), and prints out the names of those files that
contain a match:
.nf
.ne 12
$search = \'while (<>) { study;\';
foreach $word (@words) {
$search .= "++\e$seen{\e$ARGV} if /\eb$word\eb/;\en";
}
$search .= "}";
@ARGV = @files;
undef $/;
eval $search; # this screams
$/ = "\en"; # put back to normal input delim
foreach $file (sort keys(%seen)) {
print $file, "\en";
}
.fi
.Ip "substr(EXPR,OFFSET,LEN)" 8 2
.Ip "substr(EXPR,OFFSET)" 8 2
Extracts a substring out of EXPR and returns it.
First character is at offset 0, or whatever you've set $[ to.
If OFFSET is negative, starts that far from the end of the string.
If LEN is omitted, returns everything to the end of the string.
You can use the substr() function as an lvalue, in which case EXPR must
be an lvalue.
If you assign something shorter than LEN, the string will shrink, and
if you assign something longer than LEN, the string will grow to accommodate it.
To keep the string the same length you may need to pad or chop your value using
sprintf().
.Ip "symlink(OLDFILE,NEWFILE)" 8 2
Creates a new filename symbolically linked to the old filename.
Returns 1 for success, 0 otherwise.
On systems that don't support symbolic links, produces a fatal error at
run time.
To check for that, use eval:
.nf
$symlink_exists = (eval \'symlink("","");\', $@ eq \'\');
.fi
.Ip "syscall(LIST)" 8 6
.Ip "syscall LIST" 8
Calls the system call specified as the first element of the list, passing
the remaining elements as arguments to the system call.
If unimplemented, produces a fatal error.
The arguments are interpreted as follows: if a given argument is numeric,
the argument is passed as an int.
If not, the pointer to the string value is passed.
You are responsible to make sure a string is pre-extended long enough
to receive any result that might be written into a string.
If your integer arguments are not literals and have never been interpreted
in a numeric context, you may need to add 0 to them to force them to look
like numbers.
.nf
require 'syscall.ph'; # may need to run h2ph
syscall(&SYS_write, fileno(STDOUT), "hi there\en", 9);
.fi
.Ip "sysread(FILEHANDLE,SCALAR,LENGTH,OFFSET)" 8 5
.Ip "sysread(FILEHANDLE,SCALAR,LENGTH)" 8 5
Attempts to read LENGTH bytes of data into variable SCALAR from the specified
FILEHANDLE, using the system call read(2).
It bypasses stdio, so mixing this with other kinds of reads may cause
confusion.
Returns the number of bytes actually read, or undef if there was an error.
SCALAR will be grown or shrunk to the length actually read.
An OFFSET may be specified to place the read data at some other place
than the beginning of the string.
.Ip "system(LIST)" 8 6
.Ip "system LIST" 8
Does exactly the same thing as \*(L"exec LIST\*(R" except that a fork
is done first, and the parent process waits for the child process to complete.
Note that argument processing varies depending on the number of arguments.
The return value is the exit status of the program as returned by the wait()
call.
To get the actual exit value divide by 256.
See also
.IR exec .
.Ip "syswrite(FILEHANDLE,SCALAR,LENGTH,OFFSET)" 8 5
.Ip "syswrite(FILEHANDLE,SCALAR,LENGTH)" 8 5
Attempts to write LENGTH bytes of data from variable SCALAR to the specified
FILEHANDLE, using the system call write(2).
It bypasses stdio, so mixing this with prints may cause
confusion.
Returns the number of bytes actually written, or undef if there was an error.
An OFFSET may be specified to place the read data at some other place
than the beginning of the string.
.Ip "tell(FILEHANDLE)" 8 6
.Ip "tell FILEHANDLE" 8 6
.Ip "tell" 8
Returns the current file position for FILEHANDLE.
FILEHANDLE may be an expression whose value gives the name of the actual
filehandle.
If FILEHANDLE is omitted, assumes the file last read.
.Ip "telldir(DIRHANDLE)" 8 5
.Ip "telldir DIRHANDLE" 8
Returns the current position of the readdir() routines on DIRHANDLE.
Value may be given to seekdir() to access a particular location in
a directory.
Has the same caveats about possible directory compaction as the corresponding
system library routine.
.Ip "time" 8 4
Returns the number of non-leap seconds since 00:00:00 UTC, January 1, 1970.
Suitable for feeding to gmtime() and localtime().
.Ip "times" 8 4
Returns a four-element array giving the user and system times, in seconds, for this
process and the children of this process.
.Sp
($user,$system,$cuser,$csystem) = times;
.Sp
.Ip "tr/SEARCHLIST/REPLACEMENTLIST/cds" 8 5
.Ip "y/SEARCHLIST/REPLACEMENTLIST/cds" 8
Translates all occurrences of the characters found in the search list with
the corresponding character in the replacement list.
It returns the number of characters replaced or deleted.
If no string is specified via the =~ or !~ operator,
the $_ string is translated.
(The string specified with =~ must be a scalar variable, an array element,
or an assignment to one of those, i.e. an lvalue.)
For
.I sed
devotees,
.I y
is provided as a synonym for
.IR tr .
.Sp
If the c modifier is specified, the SEARCHLIST character set is complemented.
If the d modifier is specified, any characters specified by SEARCHLIST that
are not found in REPLACEMENTLIST are deleted.
(Note that this is slightly more flexible than the behavior of some
.I tr
programs, which delete anything they find in the SEARCHLIST, period.)
If the s modifier is specified, sequences of characters that were translated
to the same character are squashed down to 1 instance of the character.
.Sp
If the d modifier was used, the REPLACEMENTLIST is always interpreted exactly
as specified.
Otherwise, if the REPLACEMENTLIST is shorter than the SEARCHLIST,
the final character is replicated till it is long enough.
If the REPLACEMENTLIST is null, the SEARCHLIST is replicated.
This latter is useful for counting characters in a class, or for squashing
character sequences in a class.
.Sp
Examples:
.nf
$ARGV[1] \|=~ \|y/A\-Z/a\-z/; \h'|3i'# canonicalize to lower case
$cnt = tr/*/*/; \h'|3i'# count the stars in $_
$cnt = tr/0\-9//; \h'|3i'# count the digits in $_
tr/a\-zA\-Z//s; \h'|3i'# bookkeeper \-> bokeper
($HOST = $host) =~ tr/a\-z/A\-Z/;
y/a\-zA\-Z/ /cs; \h'|3i'# change non-alphas to single space
tr/\e200\-\e377/\e0\-\e177/;\h'|3i'# delete 8th bit
.fi
.Ip "truncate(FILEHANDLE,LENGTH)" 8 4
.Ip "truncate(EXPR,LENGTH)" 8
Truncates the file opened on FILEHANDLE, or named by EXPR, to the specified
length.
Produces a fatal error if truncate isn't implemented on your system.
.Ip "umask(EXPR)" 8 4
.Ip "umask EXPR" 8
.Ip "umask" 8
Sets the umask for the process and returns the old one.
If EXPR is omitted, merely returns current umask.
.Ip "undef(EXPR)" 8 6
.Ip "undef EXPR" 8
.Ip "undef" 8
Undefines the value of EXPR, which must be an lvalue.
Use only on a scalar value, an entire array, or a subroutine name (using &).
(Undef will probably not do what you expect on most predefined variables or
dbm array values.)
Always returns the undefined value.
You can omit the EXPR, in which case nothing is undefined, but you still
get an undefined value that you could, for instance, return from a subroutine.
Examples:
.nf
.ne 6
undef $foo;
undef $bar{'blurfl'};
undef @ary;
undef %assoc;
undef &mysub;
return (wantarray ? () : undef) if $they_blew_it;
.fi
.Ip "unlink(LIST)" 8 4
.Ip "unlink LIST" 8
Deletes a list of files.
Returns the number of files successfully deleted.
.nf
.ne 2
$cnt = unlink \'a\', \'b\', \'c\';
unlink @goners;
unlink <*.bak>;
.fi
Note: unlink will not delete directories unless you are superuser and the
.B \-U
flag is supplied to
.IR perl .
Even if these conditions are met, be warned that unlinking a directory
can inflict damage on your filesystem.
Use rmdir instead.
.Ip "unpack(TEMPLATE,EXPR)" 8 4
Unpack does the reverse of pack: it takes a string representing
a structure and expands it out into an array value, returning the array
value.
(In a scalar context, it merely returns the first value produced.)
The TEMPLATE has the same format as in the pack function.
Here's a subroutine that does substring:
.nf
.ne 4
sub substr {
local($what,$where,$howmuch) = @_;
unpack("x$where a$howmuch", $what);
}
.ne 3
and then there's
sub ord { unpack("c",$_[0]); }
.fi
In addition, you may prefix a field with a %<number> to indicate that
you want a <number>-bit checksum of the items instead of the items themselves.
Default is a 16-bit checksum.
For example, the following computes the same number as the System V sum program:
.nf
.ne 4
while (<>) {
$checksum += unpack("%16C*", $_);
}
$checksum %= 65536;
.fi
.Ip "unshift(ARRAY,LIST)" 8 4
Does the opposite of a
.IR shift .
Or the opposite of a
.IR push ,
depending on how you look at it.
Prepends list to the front of the array, and returns the number of elements
in the new array.
.nf
unshift(ARGV, \'\-e\') unless $ARGV[0] =~ /^\-/;
.fi
.Ip "utime(LIST)" 8 2
.Ip "utime LIST" 8 2
Changes the access and modification times on each file of a list of files.
The first two elements of the list must be the NUMERICAL access and
modification times, in that order.
Returns the number of files successfully changed.
The inode modification time of each file is set to the current time.
Example of a \*(L"touch\*(R" command:
.nf
.ne 3
#!/usr/bin/perl
$now = time;
utime $now, $now, @ARGV;
.fi
.Ip "values(ASSOC_ARRAY)" 8 6
.Ip "values ASSOC_ARRAY" 8
Returns a normal array consisting of all the values of the named associative
array.
The values are returned in an apparently random order, but it is the same order
as either the keys() or each() function would produce on the same array.
See also keys() and each().
.Ip "vec(EXPR,OFFSET,BITS)" 8 2
Treats a string as a vector of unsigned integers, and returns the value
of the bitfield specified.
May also be assigned to.
BITS must be a power of two from 1 to 32.
.Sp
Vectors created with vec() can also be manipulated with the logical operators
|, & and ^,
which will assume a bit vector operation is desired when both operands are
strings.
This interpretation is not enabled unless there is at least one vec() in
your program, to protect older programs.
.Sp
To transform a bit vector into a string or array of 0's and 1's, use these:
.nf
$bits = unpack("b*", $vector);
@bits = split(//, unpack("b*", $vector));
.fi
If you know the exact length in bits, it can be used in place of the *.
.Ip "wait" 8 6
Waits for a child process to terminate and returns the pid of the deceased
process, or -1 if there are no child processes.
The status is returned in $?.
.Ip "waitpid(PID,FLAGS)" 8 6
Waits for a particular child process to terminate and returns the pid of the deceased
process, or -1 if there is no such child process.
The status is returned in $?.
If you say
.nf
require "sys/wait.h";
.\|.\|.
waitpid(-1,&WNOHANG);
.fi
then you can do a non-blocking wait for any process. Non-blocking wait
is only available on machines supporting either the
.I waitpid (2)
or
.I wait4 (2)
system calls.
However, waiting for a particular pid with FLAGS of 0 is implemented
everywhere. (Perl emulates the system call by remembering the status
values of processes that have exited but have not been harvested by the
Perl script yet.)
.Ip "wantarray" 8 4
Returns true if the context of the currently executing subroutine
is looking for an array value.
Returns false if the context is looking for a scalar.
.nf
return wantarray ? () : undef;
.fi
.Ip "warn(LIST)" 8 4
.Ip "warn LIST" 8
Produces a message on STDERR just like \*(L"die\*(R", but doesn't exit.
.Ip "write(FILEHANDLE)" 8 6
.Ip "write(EXPR)" 8
.Ip "write" 8
Writes a formatted record (possibly multi-line) to the specified file,
using the format associated with that file.
By default the format for a file is the one having the same name is the
filehandle, but the format for the current output channel (see
.IR select )
may be set explicitly
by assigning the name of the format to the $~ variable.
.Sp
Top of form processing is handled automatically:
if there is insufficient room on the current page for the formatted
record, the page is advanced by writing a form feed,
a special top-of-page format is used
to format the new page header, and then the record is written.
By default the top-of-page format is \*(L"top\*(R", but it
may be set to the
format of your choice by assigning the name to the $^ variable.
The number of lines remaining on the current page is in variable $-, which
can be set to 0 to force a new page.
.Sp
If FILEHANDLE is unspecified, output goes to the current default output channel,
which starts out as
.I STDOUT
but may be changed by the
.I select
operator.
If the FILEHANDLE is an EXPR, then the expression is evaluated and the
resulting string is used to look up the name of the FILEHANDLE at run time.
For more on formats, see the section on formats later on.
.Sp
Note that write is NOT the opposite of read.
''' Beginning of part 4
''' $Header: perl.man,v 4.0 91/03/20 01:38:08 lwall Locked $
'''
''' $Log: perl.man,v $
''' Revision 4.0 91/03/20 01:38:08 lwall
''' 4.0 baseline.
'''
''' Revision 3.0.1.14 91/01/11 18:18:53 lwall
''' patch42: started an addendum and errata section in the man page
'''
''' Revision 3.0.1.13 90/11/10 01:51:00 lwall
''' patch38: random cleanup
'''
''' Revision 3.0.1.12 90/10/20 02:15:43 lwall
''' patch37: patch37: fixed various typos in man page
'''
''' Revision 3.0.1.11 90/10/16 10:04:28 lwall
''' patch29: added @###.## fields to format
'''
''' Revision 3.0.1.10 90/08/09 04:47:35 lwall
''' patch19: added require operator
''' patch19: added numeric interpretation of $]
'''
''' Revision 3.0.1.9 90/08/03 11:15:58 lwall
''' patch19: Intermediate diffs for Randal
'''
''' Revision 3.0.1.8 90/03/27 16:19:31 lwall
''' patch16: MSDOS support
'''
''' Revision 3.0.1.7 90/03/14 12:29:50 lwall
''' patch15: man page falsely states that you can't subscript array values
'''
''' Revision 3.0.1.6 90/03/12 16:54:04 lwall
''' patch13: improved documentation of *name
'''
''' Revision 3.0.1.5 90/02/28 18:01:52 lwall
''' patch9: $0 is now always the command name
'''
''' Revision 3.0.1.4 89/12/21 20:12:39 lwall
''' patch7: documented that package'filehandle works as well as $package'variable
''' patch7: documented which identifiers are always in package main
'''
''' Revision 3.0.1.3 89/11/17 15:32:25 lwall
''' patch5: fixed some manual typos and indent problems
''' patch5: clarified difference between $! and $@
'''
''' Revision 3.0.1.2 89/11/11 04:46:40 lwall
''' patch2: made some line breaks depend on troff vs. nroff
''' patch2: clarified operation of ^ and $ when $* is false
'''
''' Revision 3.0.1.1 89/10/26 23:18:43 lwall
''' patch1: documented the desirability of unnecessary parentheses
'''
''' Revision 3.0 89/10/18 15:21:55 lwall
''' 3.0 baseline
'''
.Sh "Precedence"
.I Perl
operators have the following associativity and precedence:
.nf
nonassoc\h'|1i'print printf exec system sort reverse
\h'1.5i'chmod chown kill unlink utime die return
left\h'|1i',
right\h'|1i'= += \-= *= etc.
right\h'|1i'?:
nonassoc\h'|1i'.\|.
left\h'|1i'||
left\h'|1i'&&
left\h'|1i'| ^
left\h'|1i'&
nonassoc\h'|1i'== != <=> eq ne cmp
nonassoc\h'|1i'< > <= >= lt gt le ge
nonassoc\h'|1i'chdir exit eval reset sleep rand umask
nonassoc\h'|1i'\-r \-w \-x etc.
left\h'|1i'<< >>
left\h'|1i'+ \- .
left\h'|1i'* / % x
left\h'|1i'=~ !~
right\h'|1i'! ~ and unary minus
right\h'|1i'**
nonassoc\h'|1i'++ \-\|\-
left\h'|1i'\*(L'(\*(R'
.fi
As mentioned earlier, if any list operator (print, etc.) or
any unary operator (chdir, etc.)
is followed by a left parenthesis as the next token on the same line,
the operator and arguments within parentheses are taken to
be of highest precedence, just like a normal function call.
Examples:
.nf
chdir $foo || die;\h'|3i'# (chdir $foo) || die
chdir($foo) || die;\h'|3i'# (chdir $foo) || die
chdir ($foo) || die;\h'|3i'# (chdir $foo) || die
chdir +($foo) || die;\h'|3i'# (chdir $foo) || die
but, because * is higher precedence than ||:
chdir $foo * 20;\h'|3i'# chdir ($foo * 20)
chdir($foo) * 20;\h'|3i'# (chdir $foo) * 20
chdir ($foo) * 20;\h'|3i'# (chdir $foo) * 20
chdir +($foo) * 20;\h'|3i'# chdir ($foo * 20)
rand 10 * 20;\h'|3i'# rand (10 * 20)
rand(10) * 20;\h'|3i'# (rand 10) * 20
rand (10) * 20;\h'|3i'# (rand 10) * 20
rand +(10) * 20;\h'|3i'# rand (10 * 20)
.fi
In the absence of parentheses,
the precedence of list operators such as print, sort or chmod is
either very high or very low depending on whether you look at the left
side of operator or the right side of it.
For example, in
.nf
@ary = (1, 3, sort 4, 2);
print @ary; # prints 1324
.fi
the commas on the right of the sort are evaluated before the sort, but
the commas on the left are evaluated after.
In other words, list operators tend to gobble up all the arguments that
follow them, and then act like a simple term with regard to the preceding
expression.
Note that you have to be careful with parens:
.nf
.ne 3
# These evaluate exit before doing the print:
print($foo, exit); # Obviously not what you want.
print $foo, exit; # Nor is this.
.ne 4
# These do the print before evaluating exit:
(print $foo), exit; # This is what you want.
print($foo), exit; # Or this.
print ($foo), exit; # Or even this.
Also note that
print ($foo & 255) + 1, "\en";
.fi
probably doesn't do what you expect at first glance.
.Sh "Subroutines"
A subroutine may be declared as follows:
.nf
sub NAME BLOCK
.fi
.PP
Any arguments passed to the routine come in as array @_,
that is ($_[0], $_[1], .\|.\|.).
The array @_ is a local array, but its values are references to the
actual scalar parameters.
The return value of the subroutine is the value of the last expression
evaluated, and can be either an array value or a scalar value.
Alternately, a return statement may be used to specify the returned value and
exit the subroutine.
To create local variables see the
.I local
operator.
.PP
A subroutine is called using the
.I do
operator or the & operator.
.nf
.ne 12
Example:
sub MAX {
local($max) = pop(@_);
foreach $foo (@_) {
$max = $foo \|if \|$max < $foo;
}
$max;
}
.\|.\|.
$bestday = &MAX($mon,$tue,$wed,$thu,$fri);
.ne 21
Example:
# get a line, combining continuation lines
# that start with whitespace
sub get_line {
$thisline = $lookahead;
line: while ($lookahead = <STDIN>) {
if ($lookahead \|=~ \|/\|^[ \^\e\|t]\|/\|) {
$thisline \|.= \|$lookahead;
}
else {
last line;
}
}
$thisline;
}
$lookahead = <STDIN>; # get first line
while ($_ = do get_line(\|)) {
.\|.\|.
}
.fi
.nf
.ne 6
Use array assignment to a local list to name your formal arguments:
sub maybeset {
local($key, $value) = @_;
$foo{$key} = $value unless $foo{$key};
}
.fi
This also has the effect of turning call-by-reference into call-by-value,
since the assignment copies the values.
.Sp
Subroutines may be called recursively.
If a subroutine is called using the & form, the argument list is optional.
If omitted, no @_ array is set up for the subroutine; the @_ array at the
time of the call is visible to subroutine instead.
.nf
do foo(1,2,3); # pass three arguments
&foo(1,2,3); # the same
do foo(); # pass a null list
&foo(); # the same
&foo; # pass no arguments\*(--more efficient
.fi
.Sh "Passing By Reference"
Sometimes you don't want to pass the value of an array to a subroutine but
rather the name of it, so that the subroutine can modify the global copy
of it rather than working with a local copy.
In perl you can refer to all the objects of a particular name by prefixing
the name with a star: *foo.
When evaluated, it produces a scalar value that represents all the objects
of that name, including any filehandle, format or subroutine.
When assigned to within a local() operation, it causes the name mentioned
to refer to whatever * value was assigned to it.
Example:
.nf
sub doubleary {
local(*someary) = @_;
foreach $elem (@someary) {
$elem *= 2;
}
}
do doubleary(*foo);
do doubleary(*bar);
.fi
Assignment to *name is currently recommended only inside a local().
You can actually assign to *name anywhere, but the previous referent of
*name may be stranded forever.
This may or may not bother you.
.Sp
Note that scalars are already passed by reference, so you can modify scalar
arguments without using this mechanism by referring explicitly to the $_[nnn]
in question.
You can modify all the elements of an array by passing all the elements
as scalars, but you have to use the * mechanism to push, pop or change the
size of an array.
The * mechanism will probably be more efficient in any case.
.Sp
Since a *name value contains unprintable binary data, if it is used as
an argument in a print, or as a %s argument in a printf or sprintf, it
then has the value '*name', just so it prints out pretty.
.Sp
Even if you don't want to modify an array, this mechanism is useful for
passing multiple arrays in a single LIST, since normally the LIST mechanism
will merge all the array values so that you can't extract out the
individual arrays.
.Sh "Regular Expressions"
The patterns used in pattern matching are regular expressions such as
those supplied in the Version 8 regexp routines.
(In fact, the routines are derived from Henry Spencer's freely redistributable
reimplementation of the V8 routines.)
In addition, \ew matches an alphanumeric character (including \*(L"_\*(R") and \eW a nonalphanumeric.
Word boundaries may be matched by \eb, and non-boundaries by \eB.
A whitespace character is matched by \es, non-whitespace by \eS.
A numeric character is matched by \ed, non-numeric by \eD.
You may use \ew, \es and \ed within character classes.
Also, \en, \er, \ef, \et and \eNNN have their normal interpretations.
Within character classes \eb represents backspace rather than a word boundary.
Alternatives may be separated by |.
The bracketing construct \|(\ .\|.\|.\ \|) may also be used, in which case \e<digit>
matches the digit'th substring.
(Outside of the pattern, always use $ instead of \e in front of the digit.
The scope of $<digit> (and $\`, $& and $\')
extends to the end of the enclosing BLOCK or eval string, or to
the next pattern match with subexpressions.
The \e<digit> notation sometimes works outside the current pattern, but should
not be relied upon.)
You may have as many parentheses as you wish. If you have more than 9
substrings, the variables $10, $11, ... refer to the corresponding
substring. Within the pattern, \e10, \e11,
etc. refer back to substrings if there have been at least that many left parens
before the backreference. Otherwise (for backward compatibilty) \e10
is the same as \e010, a backspace,
and \e11 the same as \e011, a tab.
And so on.
(\e1 through \e9 are always backreferences.)
.PP
$+ returns whatever the last bracket match matched.
$& returns the entire matched string.
($0 used to return the same thing, but not any more.)
$\` returns everything before the matched string.
$\' returns everything after the matched string.
Examples:
.nf
s/\|^\|([^ \|]*\|) \|*([^ \|]*\|)\|/\|$2 $1\|/; # swap first two words
.ne 5
if (/\|Time: \|(.\|.\|):\|(.\|.\|):\|(.\|.\|)\|/\|) {
$hours = $1;
$minutes = $2;
$seconds = $3;
}
.fi
By default, the ^ character is only guaranteed to match at the beginning
of the string,
the $ character only at the end (or before the newline at the end)
and
.I perl
does certain optimizations with the assumption that the string contains
only one line.
The behavior of ^ and $ on embedded newlines will be inconsistent.
You may, however, wish to treat a string as a multi-line buffer, such that
the ^ will match after any newline within the string, and $ will match
before any newline.
At the cost of a little more overhead, you can do this by setting the variable
$* to 1.
Setting it back to 0 makes
.I perl
revert to its old behavior.
.PP
To facilitate multi-line substitutions, the . character never matches a newline
(even when $* is 0).
In particular, the following leaves a newline on the $_ string:
.nf
$_ = <STDIN>;
s/.*(some_string).*/$1/;
If the newline is unwanted, try one of
s/.*(some_string).*\en/$1/;
s/.*(some_string)[^\e000]*/$1/;
s/.*(some_string)(.|\en)*/$1/;
chop; s/.*(some_string).*/$1/;
/(some_string)/ && ($_ = $1);
.fi
Any item of a regular expression may be followed with digits in curly brackets
of the form {n,m}, where n gives the minimum number of times to match the item
and m gives the maximum.
The form {n} is equivalent to {n,n} and matches exactly n times.
The form {n,} matches n or more times.
(If a curly bracket occurs in any other context, it is treated as a regular
character.)
The * modifier is equivalent to {0,}, the + modifier to {1,} and the ? modifier
to {0,1}.
There is no limit to the size of n or m, but large numbers will chew up
more memory.
.Sp
You will note that all backslashed metacharacters in
.I perl
are alphanumeric,
such as \eb, \ew, \en.
Unlike some other regular expression languages, there are no backslashed
symbols that aren't alphanumeric.
So anything that looks like \e\e, \e(, \e), \e<, \e>, \e{, or \e} is always
interpreted as a literal character, not a metacharacter.
This makes it simple to quote a string that you want to use for a pattern
but that you are afraid might contain metacharacters.
Simply quote all the non-alphanumeric characters:
.nf
$pattern =~ s/(\eW)/\e\e$1/g;
.fi
.Sh "Formats"
Output record formats for use with the
.I write
operator may declared as follows:
.nf
.ne 3
format NAME =
FORMLIST
.
.fi
If name is omitted, format \*(L"STDOUT\*(R" is defined.
FORMLIST consists of a sequence of lines, each of which may be of one of three
types:
.Ip 1. 4
A comment.
.Ip 2. 4
A \*(L"picture\*(R" line giving the format for one output line.
.Ip 3. 4
An argument line supplying values to plug into a picture line.
.PP
Picture lines are printed exactly as they look, except for certain fields
that substitute values into the line.
Each picture field starts with either @ or ^.
The @ field (not to be confused with the array marker @) is the normal
case; ^ fields are used
to do rudimentary multi-line text block filling.
The length of the field is supplied by padding out the field
with multiple <, >, or | characters to specify, respectively, left justification,
right justification, or centering.
As an alternate form of right justification,
you may also use # characters (with an optional .) to specify a numeric field.
(Use of ^ instead of @ causes the field to be blanked if undefined.)
If any of the values supplied for these fields contains a newline, only
the text up to the newline is printed.
The special field @* can be used for printing multi-line values.
It should appear by itself on a line.
.PP
The values are specified on the following line, in the same order as
the picture fields.
The values should be separated by commas.
.PP
Picture fields that begin with ^ rather than @ are treated specially.
The value supplied must be a scalar variable name which contains a text
string.
.I Perl
puts as much text as it can into the field, and then chops off the front
of the string so that the next time the variable is referenced,
more of the text can be printed.
Normally you would use a sequence of fields in a vertical stack to print
out a block of text.
If you like, you can end the final field with .\|.\|., which will appear in the
output if the text was too long to appear in its entirety.
You can change which characters are legal to break on by changing the
variable $: to a list of the desired characters.
.PP
Since use of ^ fields can produce variable length records if the text to be
formatted is short, you can suppress blank lines by putting the tilde (~)
character anywhere in the line.
(Normally you should put it in the front if possible, for visibility.)
The tilde will be translated to a space upon output.
If you put a second tilde contiguous to the first, the line will be repeated
until all the fields on the line are exhausted.
(If you use a field of the @ variety, the expression you supply had better
not give the same value every time forever!)
.PP
Examples:
.nf
.lg 0
.cs R 25
.ft C
.ne 10
# a report on the /etc/passwd file
format top =
\& Passwd File
Name Login Office Uid Gid Home
------------------------------------------------------------------
\&.
format STDOUT =
@<<<<<<<<<<<<<<<<<< @||||||| @<<<<<<@>>>> @>>>> @<<<<<<<<<<<<<<<<<
$name, $login, $office,$uid,$gid, $home
\&.
.ne 29
# a report from a bug report form
format top =
\& Bug Reports
@<<<<<<<<<<<<<<<<<<<<<<< @||| @>>>>>>>>>>>>>>>>>>>>>>>
$system, $%, $date
------------------------------------------------------------------
\&.
format STDOUT =
Subject: @<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<
\& $subject
Index: @<<<<<<<<<<<<<<<<<<<<<<<<<<<< ^<<<<<<<<<<<<<<<<<<<<<<<<<<<<
\& $index, $description
Priority: @<<<<<<<<<< Date: @<<<<<<< ^<<<<<<<<<<<<<<<<<<<<<<<<<<<<
\& $priority, $date, $description
From: @<<<<<<<<<<<<<<<<<<<<<<<<<<<<< ^<<<<<<<<<<<<<<<<<<<<<<<<<<<<
\& $from, $description
Assigned to: @<<<<<<<<<<<<<<<<<<<<<< ^<<<<<<<<<<<<<<<<<<<<<<<<<<<<
\& $programmer, $description
\&~ ^<<<<<<<<<<<<<<<<<<<<<<<<<<<<
\& $description
\&~ ^<<<<<<<<<<<<<<<<<<<<<<<<<<<<
\& $description
\&~ ^<<<<<<<<<<<<<<<<<<<<<<<<<<<<
\& $description
\&~ ^<<<<<<<<<<<<<<<<<<<<<<<<<<<<
\& $description
\&~ ^<<<<<<<<<<<<<<<<<<<<<<<...
\& $description
\&.
.ft R
.cs R
.lg
.fi
It is possible to intermix prints with writes on the same output channel,
but you'll have to handle $\- (lines left on the page) yourself.
.PP
If you are printing lots of fields that are usually blank, you should consider
using the reset operator between records.
Not only is it more efficient, but it can prevent the bug of adding another
field and forgetting to zero it.
.Sh "Interprocess Communication"
The IPC facilities of perl are built on the Berkeley socket mechanism.
If you don't have sockets, you can ignore this section.
The calls have the same names as the corresponding system calls,
but the arguments tend to differ, for two reasons.
First, perl file handles work differently than C file descriptors.
Second, perl already knows the length of its strings, so you don't need
to pass that information.
Here is a sample client (untested):
.nf
($them,$port) = @ARGV;
$port = 2345 unless $port;
$them = 'localhost' unless $them;
$SIG{'INT'} = 'dokill';
sub dokill { kill 9,$child if $child; }
require 'sys/socket.ph';
$sockaddr = 'S n a4 x8';
chop($hostname = `hostname`);
($name, $aliases, $proto) = getprotobyname('tcp');
($name, $aliases, $port) = getservbyname($port, 'tcp')
unless $port =~ /^\ed+$/;
.ie t \{\
($name, $aliases, $type, $len, $thisaddr) = gethostbyname($hostname);
'br\}
.el \{\
($name, $aliases, $type, $len, $thisaddr) =
gethostbyname($hostname);
'br\}
($name, $aliases, $type, $len, $thataddr) = gethostbyname($them);
$this = pack($sockaddr, &AF_INET, 0, $thisaddr);
$that = pack($sockaddr, &AF_INET, $port, $thataddr);
socket(S, &PF_INET, &SOCK_STREAM, $proto) || die "socket: $!";
bind(S, $this) || die "bind: $!";
connect(S, $that) || die "connect: $!";
select(S); $| = 1; select(stdout);
if ($child = fork) {
while (<>) {
print S;
}
sleep 3;
do dokill();
}
else {
while (<S>) {
print;
}
}
.fi
And here's a server:
.nf
($port) = @ARGV;
$port = 2345 unless $port;
require 'sys/socket.ph';
$sockaddr = 'S n a4 x8';
($name, $aliases, $proto) = getprotobyname('tcp');
($name, $aliases, $port) = getservbyname($port, 'tcp')
unless $port =~ /^\ed+$/;
$this = pack($sockaddr, &AF_INET, $port, "\e0\e0\e0\e0");
select(NS); $| = 1; select(stdout);
socket(S, &PF_INET, &SOCK_STREAM, $proto) || die "socket: $!";
bind(S, $this) || die "bind: $!";
listen(S, 5) || die "connect: $!";
select(S); $| = 1; select(stdout);
for (;;) {
print "Listening again\en";
($addr = accept(NS,S)) || die $!;
print "accept ok\en";
($af,$port,$inetaddr) = unpack($sockaddr,$addr);
@inetaddr = unpack('C4',$inetaddr);
print "$af $port @inetaddr\en";
while (<NS>) {
print;
print NS;
}
}
.fi
.Sh "Predefined Names"
The following names have special meaning to
.IR perl .
I could have used alphabetic symbols for some of these, but I didn't want
to take the chance that someone would say reset \*(L"a\-zA\-Z\*(R" and wipe them all
out.
You'll just have to suffer along with these silly symbols.
Most of them have reasonable mnemonics, or analogues in one of the shells.
.Ip $_ 8
The default input and pattern-searching space.
The following pairs are equivalent:
.nf
.ne 2
while (<>) {\|.\|.\|. # only equivalent in while!
while ($_ = <>) {\|.\|.\|.
.ne 2
/\|^Subject:/
$_ \|=~ \|/\|^Subject:/
.ne 2
y/a\-z/A\-Z/
$_ =~ y/a\-z/A\-Z/
.ne 2
chop
chop($_)
.fi
(Mnemonic: underline is understood in certain operations.)
.Ip $. 8
The current input line number of the last filehandle that was read.
Readonly.
Remember that only an explicit close on the filehandle resets the line number.
Since <> never does an explicit close, line numbers increase across ARGV files
(but see examples under eof).
(Mnemonic: many programs use . to mean the current line number.)
.Ip $/ 8
The input record separator, newline by default.
Works like
.IR awk 's
RS variable, including treating blank lines as delimiters
if set to the null string.
You may set it to a multicharacter string to match a multi-character
delimiter.
(Mnemonic: / is used to delimit line boundaries when quoting poetry.)
.Ip $, 8
The output field separator for the print operator.
Ordinarily the print operator simply prints out the comma separated fields
you specify.
In order to get behavior more like
.IR awk ,
set this variable as you would set
.IR awk 's
OFS variable to specify what is printed between fields.
(Mnemonic: what is printed when there is a , in your print statement.)
.Ip $"" 8
This is like $, except that it applies to array values interpolated into
a double-quoted string (or similar interpreted string).
Default is a space.
(Mnemonic: obvious, I think.)
.Ip $\e 8
The output record separator for the print operator.
Ordinarily the print operator simply prints out the comma separated fields
you specify, with no trailing newline or record separator assumed.
In order to get behavior more like
.IR awk ,
set this variable as you would set
.IR awk 's
ORS variable to specify what is printed at the end of the print.
(Mnemonic: you set $\e instead of adding \en at the end of the print.
Also, it's just like /, but it's what you get \*(L"back\*(R" from
.IR perl .)
.Ip $# 8
The output format for printed numbers.
This variable is a half-hearted attempt to emulate
.IR awk 's
OFMT variable.
There are times, however, when
.I awk
and
.I perl
have differing notions of what
is in fact numeric.
Also, the initial value is %.20g rather than %.6g, so you need to set $#
explicitly to get
.IR awk 's
value.
(Mnemonic: # is the number sign.)
.Ip $% 8
The current page number of the currently selected output channel.
(Mnemonic: % is page number in nroff.)
.Ip $= 8
The current page length (printable lines) of the currently selected output
channel.
Default is 60.
(Mnemonic: = has horizontal lines.)
.Ip $\- 8
The number of lines left on the page of the currently selected output channel.
(Mnemonic: lines_on_page \- lines_printed.)
.Ip $~ 8
The name of the current report format for the currently selected output
channel.
(Mnemonic: brother to $^.)
.Ip $^ 8
The name of the current top-of-page format for the currently selected output
channel.
(Mnemonic: points to top of page.)
.Ip $| 8
If set to nonzero, forces a flush after every write or print on the currently
selected output channel.
Default is 0.
Note that
.I STDOUT
will typically be line buffered if output is to the
terminal and block buffered otherwise.
Setting this variable is useful primarily when you are outputting to a pipe,
such as when you are running a
.I perl
script under rsh and want to see the
output as it's happening.
(Mnemonic: when you want your pipes to be piping hot.)
.Ip $$ 8
The process number of the
.I perl
running this script.
(Mnemonic: same as shells.)
.Ip $? 8
The status returned by the last pipe close, backtick (\`\`) command or
.I system
operator.
Note that this is the status word returned by the wait() system
call, so the exit value of the subprocess is actually ($? >> 8).
$? & 255 gives which signal, if any, the process died from, and whether
there was a core dump.
(Mnemonic: similar to sh and ksh.)
.Ip $& 8 4
The string matched by the last pattern match (not counting any matches hidden
within a BLOCK or eval enclosed by the current BLOCK).
(Mnemonic: like & in some editors.)
.Ip $\` 8 4
The string preceding whatever was matched by the last pattern match
(not counting any matches hidden within a BLOCK or eval enclosed by the current
BLOCK).
(Mnemonic: \` often precedes a quoted string.)
.Ip $\' 8 4
The string following whatever was matched by the last pattern match
(not counting any matches hidden within a BLOCK or eval enclosed by the current
BLOCK).
(Mnemonic: \' often follows a quoted string.)
Example:
.nf
.ne 3
$_ = \'abcdefghi\';
/def/;
print "$\`:$&:$\'\en"; # prints abc:def:ghi
.fi
.Ip $+ 8 4
The last bracket matched by the last search pattern.
This is useful if you don't know which of a set of alternative patterns
matched.
For example:
.nf
/Version: \|(.*\|)|Revision: \|(.*\|)\|/ \|&& \|($rev = $+);
.fi
(Mnemonic: be positive and forward looking.)
.Ip $* 8 2
Set to 1 to do multiline matching within a string, 0 to tell
.I perl
that it can assume that strings contain a single line, for the purpose
of optimizing pattern matches.
Pattern matches on strings containing multiple newlines can produce confusing
results when $* is 0.
Default is 0.
(Mnemonic: * matches multiple things.)
Note that this variable only influences the interpretation of ^ and $.
A literal newline can be searched for even when $* == 0.
.Ip $0 8
Contains the name of the file containing the
.I perl
script being executed.
Assigning to $0 modifies the argument area that the ps(1) program sees.
(Mnemonic: same as sh and ksh.)
.Ip $<digit> 8
Contains the subpattern from the corresponding set of parentheses in the last
pattern matched, not counting patterns matched in nested blocks that have
been exited already.
(Mnemonic: like \edigit.)
.Ip $[ 8 2
The index of the first element in an array, and of the first character in
a substring.
Default is 0, but you could set it to 1 to make
.I perl
behave more like
.I awk
(or Fortran)
when subscripting and when evaluating the index() and substr() functions.
(Mnemonic: [ begins subscripts.)
.Ip $] 8 2
The string printed out when you say \*(L"perl -v\*(R".
It can be used to determine at the beginning of a script whether the perl
interpreter executing the script is in the right range of versions.
If used in a numeric context, returns the version + patchlevel / 1000.
Example:
.nf
.ne 8
# see if getc is available
($version,$patchlevel) =
$] =~ /(\ed+\e.\ed+).*\enPatch level: (\ed+)/;
print STDERR "(No filename completion available.)\en"
if $version * 1000 + $patchlevel < 2016;
or, used numerically,
warn "No checksumming!\en" if $] < 3.019;
.fi
(Mnemonic: Is this version of perl in the right bracket?)
.Ip $; 8 2
The subscript separator for multi-dimensional array emulation.
If you refer to an associative array element as
.nf
$foo{$a,$b,$c}
it really means
$foo{join($;, $a, $b, $c)}
But don't put
@foo{$a,$b,$c} # a slice\*(--note the @
which means
($foo{$a},$foo{$b},$foo{$c})
.fi
Default is "\e034", the same as SUBSEP in
.IR awk .
Note that if your keys contain binary data there might not be any safe
value for $;.
(Mnemonic: comma (the syntactic subscript separator) is a semi-semicolon.
Yeah, I know, it's pretty lame, but $, is already taken for something more
important.)
.Ip $! 8 2
If used in a numeric context, yields the current value of errno, with all the
usual caveats.
(This means that you shouldn't depend on the value of $! to be anything
in particular unless you've gotten a specific error return indicating a
system error.)
If used in a string context, yields the corresponding system error string.
You can assign to $! in order to set errno
if, for instance, you want $! to return the string for error n, or you want
to set the exit value for the die operator.
(Mnemonic: What just went bang?)
.Ip $@ 8 2
The perl syntax error message from the last eval command.
If null, the last eval parsed and executed correctly (although the operations
you invoked may have failed in the normal fashion).
(Mnemonic: Where was the syntax error \*(L"at\*(R"?)
.Ip $< 8 2
The real uid of this process.
(Mnemonic: it's the uid you came FROM, if you're running setuid.)
.Ip $> 8 2
The effective uid of this process.
Example:
.nf
.ne 2
$< = $>; # set real uid to the effective uid
($<,$>) = ($>,$<); # swap real and effective uid
.fi
(Mnemonic: it's the uid you went TO, if you're running setuid.)
Note: $< and $> can only be swapped on machines supporting setreuid().
.Ip $( 8 2
The real gid of this process.
If you are on a machine that supports membership in multiple groups
simultaneously, gives a space separated list of groups you are in.
The first number is the one returned by getgid(), and the subsequent ones
by getgroups(), one of which may be the same as the first number.
(Mnemonic: parentheses are used to GROUP things.
The real gid is the group you LEFT, if you're running setgid.)
.Ip $) 8 2
The effective gid of this process.
If you are on a machine that supports membership in multiple groups
simultaneously, gives a space separated list of groups you are in.
The first number is the one returned by getegid(), and the subsequent ones
by getgroups(), one of which may be the same as the first number.
(Mnemonic: parentheses are used to GROUP things.
The effective gid is the group that's RIGHT for you, if you're running setgid.)
.Sp
Note: $<, $>, $( and $) can only be set on machines that support the
corresponding set[re][ug]id() routine.
$( and $) can only be swapped on machines supporting setregid().
.Ip $: 8 2
The current set of characters after which a string may be broken to
fill continuation fields (starting with ^) in a format.
Default is "\ \en-", to break on whitespace or hyphens.
(Mnemonic: a \*(L"colon\*(R" in poetry is a part of a line.)
.Ip $^D 8 2
The current value of the debugging flags.
(Mnemonic: value of
.B \-D
switch.)
.Ip $^I 8 2
The current value of the inplace-edit extension.
Use undef to disable inplace editing.
(Mnemonic: value of
.B \-i
switch.)
.Ip $^P 8 2
The name that Perl itself was invoked as, from argv[0].
.Ip $^T 8 2
The time at which the script began running, in seconds since the epoch.
The values returned by the
.B \-M ,
.B \-A
and
.B \-C
filetests are based on this value.
.Ip $^W 8 2
The current value of the warning switch.
(Mnemonic: related to the
.B \-w
switch.)
.Ip $ARGV 8 3
contains the name of the current file when reading from <>.
.Ip @ARGV 8 3
The array ARGV contains the command line arguments intended for the script.
Note that $#ARGV is the generally number of arguments minus one, since
$ARGV[0] is the first argument, NOT the command name.
See $0 for the command name.
.Ip @INC 8 3
The array INC contains the list of places to look for
.I perl
scripts to be
evaluated by the \*(L"do EXPR\*(R" command or the \*(L"require\*(R" command.
It initially consists of the arguments to any
.B \-I
command line switches, followed
by the default
.I perl
library, probably \*(L"/usr/local/lib/perl\*(R",
followed by \*(L".\*(R", to represent the current directory.
.Ip %INC 8 3
The associative array INC contains entries for each filename that has
been included via \*(L"do\*(R" or \*(L"require\*(R".
The key is the filename you specified, and the value is the location of
the file actually found.
The \*(L"require\*(R" command uses this array to determine whether
a given file has already been included.
.Ip $ENV{expr} 8 2
The associative array ENV contains your current environment.
Setting a value in ENV changes the environment for child processes.
.Ip $SIG{expr} 8 2
The associative array SIG is used to set signal handlers for various signals.
Example:
.nf
.ne 12
sub handler { # 1st argument is signal name
local($sig) = @_;
print "Caught a SIG$sig\-\|\-shutting down\en";
close(LOG);
exit(0);
}
$SIG{\'INT\'} = \'handler\';
$SIG{\'QUIT\'} = \'handler\';
.\|.\|.
$SIG{\'INT\'} = \'DEFAULT\'; # restore default action
$SIG{\'QUIT\'} = \'IGNORE\'; # ignore SIGQUIT
.fi
The SIG array only contains values for the signals actually set within
the perl script.
.Sh "Packages"
Perl provides a mechanism for alternate namespaces to protect packages from
stomping on each others variables.
By default, a perl script starts compiling into the package known as \*(L"main\*(R".
By use of the
.I package
declaration, you can switch namespaces.
The scope of the package declaration is from the declaration itself to the end
of the enclosing block (the same scope as the local() operator).
Typically it would be the first declaration in a file to be included by
the \*(L"require\*(R" operator.
You can switch into a package in more than one place; it merely influences
which symbol table is used by the compiler for the rest of that block.
You can refer to variables and filehandles in other packages by prefixing
the identifier with the package name and a single quote.
If the package name is null, the \*(L"main\*(R" package as assumed.
.PP
Only identifiers starting with letters are stored in the packages symbol
table.
All other symbols are kept in package \*(L"main\*(R".
In addition, the identifiers STDIN, STDOUT, STDERR, ARGV, ARGVOUT, ENV, INC
and SIG are forced to be in package \*(L"main\*(R", even when used for
other purposes than their built-in one.
Note also that, if you have a package called \*(L"m\*(R", \*(L"s\*(R"
or \*(L"y\*(R", the you can't use the qualified form of an identifier since it
will be interpreted instead as a pattern match, a substitution
or a translation.
.PP
Eval'ed strings are compiled in the package in which the eval was compiled
in.
(Assignments to $SIG{}, however, assume the signal handler specified is in the
main package.
Qualify the signal handler name if you wish to have a signal handler in
a package.)
For an example, examine perldb.pl in the perl library.
It initially switches to the DB package so that the debugger doesn't interfere
with variables in the script you are trying to debug.
At various points, however, it temporarily switches back to the main package
to evaluate various expressions in the context of the main package.
.PP
The symbol table for a package happens to be stored in the associative array
of that name prepended with an underscore.
The value in each entry of the associative array is
what you are referring to when you use the *name notation.
In fact, the following have the same effect (in package main, anyway),
though the first is more
efficient because it does the symbol table lookups at compile time:
.nf
.ne 2
local(*foo) = *bar;
local($_main{'foo'}) = $_main{'bar'};
.fi
You can use this to print out all the variables in a package, for instance.
Here is dumpvar.pl from the perl library:
.nf
.ne 11
package dumpvar;
sub main'dumpvar {
\& ($package) = @_;
\& local(*stab) = eval("*_$package");
\& while (($key,$val) = each(%stab)) {
\& {
\& local(*entry) = $val;
\& if (defined $entry) {
\& print "\e$$key = '$entry'\en";
\& }
.ne 7
\& if (defined @entry) {
\& print "\e@$key = (\en";
\& foreach $num ($[ .. $#entry) {
\& print " $num\et'",$entry[$num],"'\en";
\& }
\& print ")\en";
\& }
.ne 10
\& if ($key ne "_$package" && defined %entry) {
\& print "\e%$key = (\en";
\& foreach $key (sort keys(%entry)) {
\& print " $key\et'",$entry{$key},"'\en";
\& }
\& print ")\en";
\& }
\& }
\& }
}
.fi
Note that, even though the subroutine is compiled in package dumpvar, the
name of the subroutine is qualified so that its name is inserted into package
\*(L"main\*(R".
.Sh "Style"
Each programmer will, of course, have his or her own preferences in regards
to formatting, but there are some general guidelines that will make your
programs easier to read.
.Ip 1. 4 4
Just because you CAN do something a particular way doesn't mean that
you SHOULD do it that way.
.I Perl
is designed to give you several ways to do anything, so consider picking
the most readable one.
For instance
open(FOO,$foo) || die "Can't open $foo: $!";
is better than
die "Can't open $foo: $!" unless open(FOO,$foo);
because the second way hides the main point of the statement in a
modifier.
On the other hand
print "Starting analysis\en" if $verbose;
is better than
$verbose && print "Starting analysis\en";
since the main point isn't whether the user typed -v or not.
.Sp
Similarly, just because an operator lets you assume default arguments
doesn't mean that you have to make use of the defaults.
The defaults are there for lazy systems programmers writing one-shot
programs.
If you want your program to be readable, consider supplying the argument.
.Sp
Along the same lines, just because you
.I can
omit parentheses in many places doesn't mean that you ought to:
.nf
return print reverse sort num values array;
return print(reverse(sort num (values(%array))));
.fi
When in doubt, parenthesize.
At the very least it will let some poor schmuck bounce on the % key in vi.
.Sp
Even if you aren't in doubt, consider the mental welfare of the person who
has to maintain the code after you, and who will probably put parens in
the wrong place.
.Ip 2. 4 4
Don't go through silly contortions to exit a loop at the top or the
bottom, when
.I perl
provides the "last" operator so you can exit in the middle.
Just outdent it a little to make it more visible:
.nf
.ne 7
line:
for (;;) {
statements;
last line if $foo;
next line if /^#/;
statements;
}
.fi
.Ip 3. 4 4
Don't be afraid to use loop labels\*(--they're there to enhance readability as
well as to allow multi-level loop breaks.
See last example.
.Ip 4. 4 4
For portability, when using features that may not be implemented on every
machine, test the construct in an eval to see if it fails.
If you know what version or patchlevel a particular feature was implemented,
you can test $] to see if it will be there.
.Ip 5. 4 4
Choose mnemonic identifiers.
.Ip 6. 4 4
Be consistent.
.Sh "Debugging"
If you invoke
.I perl
with a
.B \-d
switch, your script will be run under a debugging monitor.
It will halt before the first executable statement and ask you for a
command, such as:
.Ip "h" 12 4
Prints out a help message.
.Ip "T" 12 4
Stack trace.
.Ip "s" 12 4
Single step.
Executes until it reaches the beginning of another statement.
.Ip "n" 12 4
Next.
Executes over subroutine calls, until it reaches the beginning of the
next statement.
.Ip "f" 12 4
Finish.
Executes statements until it has finished the current subroutine.
.Ip "c" 12 4
Continue.
Executes until the next breakpoint is reached.
.Ip "c line" 12 4
Continue to the specified line.
Inserts a one-time-only breakpoint at the specified line.
.Ip "<CR>" 12 4
Repeat last n or s.
.Ip "l min+incr" 12 4
List incr+1 lines starting at min.
If min is omitted, starts where last listing left off.
If incr is omitted, previous value of incr is used.
.Ip "l min-max" 12 4
List lines in the indicated range.
.Ip "l line" 12 4
List just the indicated line.
.Ip "l" 12 4
List next window.
.Ip "-" 12 4
List previous window.
.Ip "w line" 12 4
List window around line.
.Ip "l subname" 12 4
List subroutine.
If it's a long subroutine it just lists the beginning.
Use \*(L"l\*(R" to list more.
.Ip "/pattern/" 12 4
Regular expression search forward for pattern; the final / is optional.
.Ip "?pattern?" 12 4
Regular expression search backward for pattern; the final ? is optional.
.Ip "L" 12 4
List lines that have breakpoints or actions.
.Ip "S" 12 4
Lists the names of all subroutines.
.Ip "t" 12 4
Toggle trace mode on or off.
.Ip "b line condition" 12 4
Set a breakpoint.
If line is omitted, sets a breakpoint on the
line that is about to be executed.
If a condition is specified, it is evaluated each time the statement is
reached and a breakpoint is taken only if the condition is true.
Breakpoints may only be set on lines that begin an executable statement.
.Ip "b subname condition" 12 4
Set breakpoint at first executable line of subroutine.
.Ip "d line" 12 4
Delete breakpoint.
If line is omitted, deletes the breakpoint on the
line that is about to be executed.
.Ip "D" 12 4
Delete all breakpoints.
.Ip "a line command" 12 4
Set an action for line.
A multi-line command may be entered by backslashing the newlines.
.Ip "A" 12 4
Delete all line actions.
.Ip "< command" 12 4
Set an action to happen before every debugger prompt.
A multi-line command may be entered by backslashing the newlines.
.Ip "> command" 12 4
Set an action to happen after the prompt when you've just given a command
to return to executing the script.
A multi-line command may be entered by backslashing the newlines.
.Ip "V package" 12 4
List all variables in package.
Default is main package.
.Ip "! number" 12 4
Redo a debugging command.
If number is omitted, redoes the previous command.
.Ip "! -number" 12 4
Redo the command that was that many commands ago.
.Ip "H -number" 12 4
Display last n commands.
Only commands longer than one character are listed.
If number is omitted, lists them all.
.Ip "q or ^D" 12 4
Quit.
.Ip "command" 12 4
Execute command as a perl statement.
A missing semicolon will be supplied.
.Ip "p expr" 12 4
Same as \*(L"print DB'OUT expr\*(R".
The DB'OUT filehandle is opened to /dev/tty, regardless of where STDOUT
may be redirected to.
.PP
If you want to modify the debugger, copy perldb.pl from the perl library
to your current directory and modify it as necessary.
(You'll also have to put -I. on your command line.)
You can do some customization by setting up a .perldb file which contains
initialization code.
For instance, you could make aliases like these:
.nf
$DB'alias{'len'} = 's/^len(.*)/p length($1)/';
$DB'alias{'stop'} = 's/^stop (at|in)/b/';
$DB'alias{'.'} =
's/^\e./p "\e$DB\e'sub(\e$DB\e'line):\et",\e$DB\e'line[\e$DB\e'line]/';
.fi
.Sh "Setuid Scripts"
.I Perl
is designed to make it easy to write secure setuid and setgid scripts.
Unlike shells, which are based on multiple substitution passes on each line
of the script,
.I perl
uses a more conventional evaluation scheme with fewer hidden \*(L"gotchas\*(R".
Additionally, since the language has more built-in functionality, it
has to rely less upon external (and possibly untrustworthy) programs to
accomplish its purposes.
.PP
In an unpatched 4.2 or 4.3bsd kernel, setuid scripts are intrinsically
insecure, but this kernel feature can be disabled.
If it is,
.I perl
can emulate the setuid and setgid mechanism when it notices the otherwise
useless setuid/gid bits on perl scripts.
If the kernel feature isn't disabled,
.I perl
will complain loudly that your setuid script is insecure.
You'll need to either disable the kernel setuid script feature, or put
a C wrapper around the script.
.PP
When perl is executing a setuid script, it takes special precautions to
prevent you from falling into any obvious traps.
(In some ways, a perl script is more secure than the corresponding
C program.)
Any command line argument, environment variable, or input is marked as
\*(L"tainted\*(R", and may not be used, directly or indirectly, in any
command that invokes a subshell, or in any command that modifies files,
directories or processes.
Any variable that is set within an expression that has previously referenced
a tainted value also becomes tainted (even if it is logically impossible
for the tainted value to influence the variable).
For example:
.nf
.ne 5
$foo = shift; # $foo is tainted
$bar = $foo,\'bar\'; # $bar is also tainted
$xxx = <>; # Tainted
$path = $ENV{\'PATH\'}; # Tainted, but see below
$abc = \'abc\'; # Not tainted
.ne 4
system "echo $foo"; # Insecure
system "/bin/echo", $foo; # Secure (doesn't use sh)
system "echo $bar"; # Insecure
system "echo $abc"; # Insecure until PATH set
.ne 5
$ENV{\'PATH\'} = \'/bin:/usr/bin\';
$ENV{\'IFS\'} = \'\' if $ENV{\'IFS\'} ne \'\';
$path = $ENV{\'PATH\'}; # Not tainted
system "echo $abc"; # Is secure now!
.ne 5
open(FOO,"$foo"); # OK
open(FOO,">$foo"); # Not OK
open(FOO,"echo $foo|"); # Not OK, but...
open(FOO,"-|") || exec \'echo\', $foo; # OK
$zzz = `echo $foo`; # Insecure, zzz tainted
unlink $abc,$foo; # Insecure
umask $foo; # Insecure
.ne 3
exec "echo $foo"; # Insecure
exec "echo", $foo; # Secure (doesn't use sh)
exec "sh", \'-c\', $foo; # Considered secure, alas
.fi
The taintedness is associated with each scalar value, so some elements
of an array can be tainted, and others not.
.PP
If you try to do something insecure, you will get a fatal error saying
something like \*(L"Insecure dependency\*(R" or \*(L"Insecure PATH\*(R".
Note that you can still write an insecure system call or exec,
but only by explicitly doing something like the last example above.
You can also bypass the tainting mechanism by referencing
subpatterns\*(--\c
.I perl
presumes that if you reference a substring using $1, $2, etc, you knew
what you were doing when you wrote the pattern:
.nf
$ARGV[0] =~ /^\-P(\ew+)$/;
$printer = $1; # Not tainted
.fi
This is fairly secure since \ew+ doesn't match shell metacharacters.
Use of .+ would have been insecure, but
.I perl
doesn't check for that, so you must be careful with your patterns.
This is the ONLY mechanism for untainting user supplied filenames if you
want to do file operations on them (unless you make $> equal to $<).
.PP
It's also possible to get into trouble with other operations that don't care
whether they use tainted values.
Make judicious use of the file tests in dealing with any user-supplied
filenames.
When possible, do opens and such after setting $> = $<.
.I Perl
doesn't prevent you from opening tainted filenames for reading, so be
careful what you print out.
The tainting mechanism is intended to prevent stupid mistakes, not to remove
the need for thought.
.SH ENVIRONMENT
.I Perl
uses PATH in executing subprocesses, and in finding the script if \-S
is used.
HOME or LOGDIR are used if chdir has no argument.
.PP
Apart from these,
.I perl
uses no environment variables, except to make them available
to the script being executed, and to child processes.
However, scripts running setuid would do well to execute the following lines
before doing anything else, just to keep people honest:
.nf
.ne 3
$ENV{\'PATH\'} = \'/bin:/usr/bin\'; # or whatever you need
$ENV{\'SHELL\'} = \'/bin/sh\' if $ENV{\'SHELL\'} ne \'\';
$ENV{\'IFS\'} = \'\' if $ENV{\'IFS\'} ne \'\';
.fi
.SH AUTHOR
Larry Wall <lwall@jpl-devvax.Jpl.Nasa.Gov>
.br
MS-DOS port by Diomidis Spinellis <dds@cc.ic.ac.uk>
.SH FILES
/tmp/perl\-eXXXXXX temporary file for
.B \-e
commands.
.SH SEE ALSO
a2p awk to perl translator
.br
s2p sed to perl translator
.SH DIAGNOSTICS
Compilation errors will tell you the line number of the error, with an
indication of the next token or token type that was to be examined.
(In the case of a script passed to
.I perl
via
.B \-e
switches, each
.B \-e
is counted as one line.)
.PP
Setuid scripts have additional constraints that can produce error messages
such as \*(L"Insecure dependency\*(R".
See the section on setuid scripts.
.SH TRAPS
Accustomed
.IR awk
users should take special note of the following:
.Ip * 4 2
Semicolons are required after all simple statements in
.IR perl .
Newline
is not a statement delimiter.
.Ip * 4 2
Curly brackets are required on ifs and whiles.
.Ip * 4 2
Variables begin with $ or @ in
.IR perl .
.Ip * 4 2
Arrays index from 0 unless you set $[.
Likewise string positions in substr() and index().
.Ip * 4 2
You have to decide whether your array has numeric or string indices.
.Ip * 4 2
Associative array values do not spring into existence upon mere reference.
.Ip * 4 2
You have to decide whether you want to use string or numeric comparisons.
.Ip * 4 2
Reading an input line does not split it for you. You get to split it yourself
to an array.
And the
.I split
operator has different arguments.
.Ip * 4 2
The current input line is normally in $_, not $0.
It generally does not have the newline stripped.
($0 is the name of the program executed.)
.Ip * 4 2
$<digit> does not refer to fields\*(--it refers to substrings matched by the last
match pattern.
.Ip * 4 2
The
.I print
statement does not add field and record separators unless you set
$, and $\e.
.Ip * 4 2
You must open your files before you print to them.
.Ip * 4 2
The range operator is \*(L".\|.\*(R", not comma.
(The comma operator works as in C.)
.Ip * 4 2
The match operator is \*(L"=~\*(R", not \*(L"~\*(R".
(\*(L"~\*(R" is the one's complement operator, as in C.)
.Ip * 4 2
The exponentiation operator is \*(L"**\*(R", not \*(L"^\*(R".
(\*(L"^\*(R" is the XOR operator, as in C.)
.Ip * 4 2
The concatenation operator is \*(L".\*(R", not the null string.
(Using the null string would render \*(L"/pat/ /pat/\*(R" unparsable,
since the third slash would be interpreted as a division operator\*(--the
tokener is in fact slightly context sensitive for operators like /, ?, and <.
And in fact, . itself can be the beginning of a number.)
.Ip * 4 2
.IR Next ,
.I exit
and
.I continue
work differently.
.Ip * 4 2
The following variables work differently
.nf
Awk \h'|2.5i'Perl
ARGC \h'|2.5i'$#ARGV
ARGV[0] \h'|2.5i'$0
FILENAME\h'|2.5i'$ARGV
FNR \h'|2.5i'$. \- something
FS \h'|2.5i'(whatever you like)
NF \h'|2.5i'$#Fld, or some such
NR \h'|2.5i'$.
OFMT \h'|2.5i'$#
OFS \h'|2.5i'$,
ORS \h'|2.5i'$\e
RLENGTH \h'|2.5i'length($&)
RS \h'|2.5i'$/
RSTART \h'|2.5i'length($\`)
SUBSEP \h'|2.5i'$;
.fi
.Ip * 4 2
When in doubt, run the
.I awk
construct through a2p and see what it gives you.
.PP
Cerebral C programmers should take note of the following:
.Ip * 4 2
Curly brackets are required on ifs and whiles.
.Ip * 4 2
You should use \*(L"elsif\*(R" rather than \*(L"else if\*(R"
.Ip * 4 2
.I Break
and
.I continue
become
.I last
and
.IR next ,
respectively.
.Ip * 4 2
There's no switch statement.
.Ip * 4 2
Variables begin with $ or @ in
.IR perl .
.Ip * 4 2
Printf does not implement *.
.Ip * 4 2
Comments begin with #, not /*.
.Ip * 4 2
You can't take the address of anything.
.Ip * 4 2
ARGV must be capitalized.
.Ip * 4 2
The \*(L"system\*(R" calls link, unlink, rename, etc. return nonzero for success, not 0.
.Ip * 4 2
Signal handlers deal with signal names, not numbers.
.PP
Seasoned
.I sed
programmers should take note of the following:
.Ip * 4 2
Backreferences in substitutions use $ rather than \e.
.Ip * 4 2
The pattern matching metacharacters (, ), and | do not have backslashes in front.
.Ip * 4 2
The range operator is .\|. rather than comma.
.PP
Sharp shell programmers should take note of the following:
.Ip * 4 2
The backtick operator does variable interpretation without regard to the
presence of single quotes in the command.
.Ip * 4 2
The backtick operator does no translation of the return value, unlike csh.
.Ip * 4 2
Shells (especially csh) do several levels of substitution on each command line.
.I Perl
does substitution only in certain constructs such as double quotes,
backticks, angle brackets and search patterns.
.Ip * 4 2
Shells interpret scripts a little bit at a time.
.I Perl
compiles the whole program before executing it.
.Ip * 4 2
The arguments are available via @ARGV, not $1, $2, etc.
.Ip * 4 2
The environment is not automatically made available as variables.
.SH ERRATA\0AND\0ADDENDA
The Perl book,
.I Programming\0Perl ,
has the following omissions and goofs.
.PP
On page 5, the examples which read
.nf
eval "/usr/bin/perl
should read
eval "exec /usr/bin/perl
.fi
.PP
On page 195, the equivalent to the System V sum program only works for
very small files. To do larger files, use
.nf
undef $/;
$checksum = unpack("%32C*",<>) % 32767;
.fi
.PP
The
.B \-0
switch to set the initial value of $/ was added to Perl after the book
went to press.
.PP
The
.B \-l
switch now does automatic line ending processing.
.PP
The qx// construct is now a synonym for backticks.
.PP
$0 may now be assigned to set the argument displayed by
.I ps (1).
.PP
The new @###.## format was omitted accidentally from the description
on formats.
.PP
It wasn't known at press time that s///ee caused multiple evaluations of
the replacement expression. This is to be construed as a feature.
.PP
(LIST) x $count now does array replication.
.PP
There is now no limit on the number of parentheses in a regular expression.
.PP
In double-quote context, more escapes are supported: \ee, \ea, \ex1b, \ec[,
\el, \eL, \eu, \eU, \eE. The latter five control up/lower case translation.
.PP
The
.B $/
variable may now be set to a multi-character delimiter.
.SH BUGS
.PP
.I Perl
is at the mercy of your machine's definitions of various operations
such as type casting, atof() and sprintf().
.PP
If your stdio requires an seek or eof between reads and writes on a particular
stream, so does
.IR perl .
.PP
While none of the built-in data types have any arbitrary size limits (apart
from memory size), there are still a few arbitrary limits:
a given identifier may not be longer than 255 characters;
sprintf is limited on many machines to 128 characters per field (unless the format
specifier is exactly %s);
and no component of your PATH may be longer than 255 if you use \-S.
.PP
.I Perl
actually stands for Pathologically Eclectic Rubbish Lister, but don't tell
anyone I said that.
.rn }` ''
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