865 lines
33 KiB
Plaintext
865 lines
33 KiB
Plaintext
=head1 NAME
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perlopentut - tutorial on opening things in Perl
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=head1 DESCRIPTION
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Perl has two simple, built-in ways to open files: the shell way for
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convenience, and the C way for precision. The choice is yours.
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=head1 Open E<agrave> la shell
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Perl's C<open> function was designed to mimic the way command-line
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redirection in the shell works. Here are some basic examples
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from the shell:
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$ myprogram file1 file2 file3
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$ myprogram < inputfile
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$ myprogram > outputfile
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$ myprogram >> outputfile
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$ myprogram | otherprogram
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$ otherprogram | myprogram
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And here are some more advanced examples:
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$ otherprogram | myprogram f1 - f2
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$ otherprogram 2>&1 | myprogram -
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$ myprogram <&3
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$ myprogram >&4
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Programmers accustomed to constructs like those above can take comfort
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in learning that Perl directly supports these familiar constructs using
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virtually the same syntax as the shell.
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=head2 Simple Opens
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The C<open> function takes two arguments: the first is a filehandle,
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and the second is a single string comprising both what to open and how
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to open it. C<open> returns true when it works, and when it fails,
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returns a false value and sets the special variable $! to reflect
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the system error. If the filehandle was previously opened, it will
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be implicitly closed first.
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For example:
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open(INFO, "datafile") || die("can't open datafile: $!");
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open(INFO, "< datafile") || die("can't open datafile: $!");
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open(RESULTS,"> runstats") || die("can't open runstats: $!");
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open(LOG, ">> logfile ") || die("can't open logfile: $!");
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If you prefer the low-punctuation version, you could write that this way:
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open INFO, "< datafile" or die "can't open datafile: $!";
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open RESULTS,"> runstats" or die "can't open runstats: $!";
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open LOG, ">> logfile " or die "can't open logfile: $!";
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A few things to notice. First, the leading less-than is optional.
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If omitted, Perl assumes that you want to open the file for reading.
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The other important thing to notice is that, just as in the shell,
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any white space before or after the filename is ignored. This is good,
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because you wouldn't want these to do different things:
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open INFO, "<datafile"
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open INFO, "< datafile"
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open INFO, "< datafile"
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Ignoring surround whitespace also helps for when you read a filename in
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from a different file, and forget to trim it before opening:
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$filename = <INFO>; # oops, \n still there
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open(EXTRA, "< $filename") || die "can't open $filename: $!";
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This is not a bug, but a feature. Because C<open> mimics the shell in
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its style of using redirection arrows to specify how to open the file, it
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also does so with respect to extra white space around the filename itself
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as well. For accessing files with naughty names, see L<"Dispelling
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the Dweomer">.
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=head2 Pipe Opens
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In C, when you want to open a file using the standard I/O library,
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you use the C<fopen> function, but when opening a pipe, you use the
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C<popen> function. But in the shell, you just use a different redirection
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character. That's also the case for Perl. The C<open> call
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remains the same--just its argument differs.
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If the leading character is a pipe symbol, C<open> starts up a new
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command and open a write-only filehandle leading into that command.
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This lets you write into that handle and have what you write show up on
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that command's standard input. For example:
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open(PRINTER, "| lpr -Plp1") || die "cannot fork: $!";
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print PRINTER "stuff\n";
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close(PRINTER) || die "can't close lpr: $!";
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If the trailing character is a pipe, you start up a new command and open a
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read-only filehandle leading out of that command. This lets whatever that
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command writes to its standard output show up on your handle for reading.
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For example:
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open(NET, "netstat -i -n |") || die "cannot fork: $!";
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while (<NET>) { } # do something with input
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close(NET) || die "can't close netstat: $!";
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What happens if you try to open a pipe to or from a non-existent command?
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In most systems, such an C<open> will not return an error. That's
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because in the traditional C<fork>/C<exec> model, running the other
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program happens only in the forked child process, which means that
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the failed C<exec> can't be reflected in the return value of C<open>.
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Only a failed C<fork> shows up there. See L<perlfaq8/"Why doesn't open()
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return an error when a pipe open fails?"> to see how to cope with this.
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There's also an explanation in L<perlipc>.
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If you would like to open a bidirectional pipe, the IPC::Open2
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library will handle this for you. Check out L<perlipc/"Bidirectional
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Communication with Another Process">
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=head2 The Minus File
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Again following the lead of the standard shell utilities, Perl's
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C<open> function treats a file whose name is a single minus, "-", in a
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special way. If you open minus for reading, it really means to access
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the standard input. If you open minus for writing, it really means to
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access the standard output.
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If minus can be used as the default input or default output, what happens
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if you open a pipe into or out of minus? What's the default command it
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would run? The same script as you're currently running! This is actually
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a stealth C<fork> hidden inside an C<open> call. See L<perlipc/"Safe Pipe
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Opens"> for details.
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=head2 Mixing Reads and Writes
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It is possible to specify both read and write access. All you do is
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add a "+" symbol in front of the redirection. But as in the shell,
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using a less-than on a file never creates a new file; it only opens an
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existing one. On the other hand, using a greater-than always clobbers
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(truncates to zero length) an existing file, or creates a brand-new one
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if there isn't an old one. Adding a "+" for read-write doesn't affect
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whether it only works on existing files or always clobbers existing ones.
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open(WTMP, "+< /usr/adm/wtmp")
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|| die "can't open /usr/adm/wtmp: $!";
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open(SCREEN, "+> /tmp/lkscreen")
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|| die "can't open /tmp/lkscreen: $!";
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open(LOGFILE, "+>> /tmp/applog"
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|| die "can't open /tmp/applog: $!";
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The first one won't create a new file, and the second one will always
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clobber an old one. The third one will create a new file if necessary
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and not clobber an old one, and it will allow you to read at any point
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in the file, but all writes will always go to the end. In short,
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the first case is substantially more common than the second and third
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cases, which are almost always wrong. (If you know C, the plus in
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Perl's C<open> is historically derived from the one in C's fopen(3S),
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which it ultimately calls.)
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In fact, when it comes to updating a file, unless you're working on
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a binary file as in the WTMP case above, you probably don't want to
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use this approach for updating. Instead, Perl's B<-i> flag comes to
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the rescue. The following command takes all the C, C++, or yacc source
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or header files and changes all their foo's to bar's, leaving
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the old version in the original file name with a ".orig" tacked
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on the end:
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$ perl -i.orig -pe 's/\bfoo\b/bar/g' *.[Cchy]
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This is a short cut for some renaming games that are really
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the best way to update textfiles. See the second question in
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L<perlfaq5> for more details.
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=head2 Filters
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One of the most common uses for C<open> is one you never
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even notice. When you process the ARGV filehandle using
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C<< <ARGV> >>, Perl actually does an implicit open
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on each file in @ARGV. Thus a program called like this:
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$ myprogram file1 file2 file3
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Can have all its files opened and processed one at a time
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using a construct no more complex than:
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while (<>) {
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# do something with $_
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}
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If @ARGV is empty when the loop first begins, Perl pretends you've opened
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up minus, that is, the standard input. In fact, $ARGV, the currently
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open file during C<< <ARGV> >> processing, is even set to "-"
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in these circumstances.
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You are welcome to pre-process your @ARGV before starting the loop to
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make sure it's to your liking. One reason to do this might be to remove
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command options beginning with a minus. While you can always roll the
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simple ones by hand, the Getopts modules are good for this.
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use Getopt::Std;
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# -v, -D, -o ARG, sets $opt_v, $opt_D, $opt_o
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getopts("vDo:");
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# -v, -D, -o ARG, sets $args{v}, $args{D}, $args{o}
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getopts("vDo:", \%args);
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Or the standard Getopt::Long module to permit named arguments:
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use Getopt::Long;
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GetOptions( "verbose" => \$verbose, # --verbose
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"Debug" => \$debug, # --Debug
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"output=s" => \$output );
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# --output=somestring or --output somestring
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Another reason for preprocessing arguments is to make an empty
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argument list default to all files:
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@ARGV = glob("*") unless @ARGV;
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You could even filter out all but plain, text files. This is a bit
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silent, of course, and you might prefer to mention them on the way.
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@ARGV = grep { -f && -T } @ARGV;
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If you're using the B<-n> or B<-p> command-line options, you
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should put changes to @ARGV in a C<BEGIN{}> block.
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Remember that a normal C<open> has special properties, in that it might
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call fopen(3S) or it might called popen(3S), depending on what its
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argument looks like; that's why it's sometimes called "magic open".
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Here's an example:
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$pwdinfo = `domainname` =~ /^(\(none\))?$/
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? '< /etc/passwd'
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: 'ypcat passwd |';
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open(PWD, $pwdinfo)
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or die "can't open $pwdinfo: $!";
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This sort of thing also comes into play in filter processing. Because
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C<< <ARGV> >> processing employs the normal, shell-style Perl C<open>,
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it respects all the special things we've already seen:
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$ myprogram f1 "cmd1|" - f2 "cmd2|" f3 < tmpfile
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That program will read from the file F<f1>, the process F<cmd1>, standard
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input (F<tmpfile> in this case), the F<f2> file, the F<cmd2> command,
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and finally the F<f3> file.
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Yes, this also means that if you have a file named "-" (and so on) in
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your directory, that they won't be processed as literal files by C<open>.
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You'll need to pass them as "./-" much as you would for the I<rm> program.
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Or you could use C<sysopen> as described below.
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One of the more interesting applications is to change files of a certain
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name into pipes. For example, to autoprocess gzipped or compressed
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files by decompressing them with I<gzip>:
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@ARGV = map { /^\.(gz|Z)$/ ? "gzip -dc $_ |" : $_ } @ARGV;
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Or, if you have the I<GET> program installed from LWP,
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you can fetch URLs before processing them:
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@ARGV = map { m#^\w+://# ? "GET $_ |" : $_ } @ARGV;
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It's not for nothing that this is called magic C<< <ARGV> >>.
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Pretty nifty, eh?
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=head1 Open E<agrave> la C
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If you want the convenience of the shell, then Perl's C<open> is
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definitely the way to go. On the other hand, if you want finer precision
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than C's simplistic fopen(3S) provides, then you should look to Perl's
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C<sysopen>, which is a direct hook into the open(2) system call.
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That does mean it's a bit more involved, but that's the price of
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precision.
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C<sysopen> takes 3 (or 4) arguments.
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sysopen HANDLE, PATH, FLAGS, [MASK]
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The HANDLE argument is a filehandle just as with C<open>. The PATH is
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a literal path, one that doesn't pay attention to any greater-thans or
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less-thans or pipes or minuses, nor ignore white space. If it's there,
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it's part of the path. The FLAGS argument contains one or more values
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derived from the Fcntl module that have been or'd together using the
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bitwise "|" operator. The final argument, the MASK, is optional; if
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present, it is combined with the user's current umask for the creation
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mode of the file. You should usually omit this.
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Although the traditional values of read-only, write-only, and read-write
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are 0, 1, and 2 respectively, this is known not to hold true on some
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systems. Instead, it's best to load in the appropriate constants first
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from the Fcntl module, which supplies the following standard flags:
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O_RDONLY Read only
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O_WRONLY Write only
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O_RDWR Read and write
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O_CREAT Create the file if it doesn't exist
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O_EXCL Fail if the file already exists
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O_APPEND Append to the file
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O_TRUNC Truncate the file
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O_NONBLOCK Non-blocking access
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Less common flags that are sometimes available on some operating
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systems include C<O_BINARY>, C<O_TEXT>, C<O_SHLOCK>, C<O_EXLOCK>,
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C<O_DEFER>, C<O_SYNC>, C<O_ASYNC>, C<O_DSYNC>, C<O_RSYNC>,
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C<O_NOCTTY>, C<O_NDELAY> and C<O_LARGEFILE>. Consult your open(2)
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manpage or its local equivalent for details. (Note: starting from
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Perl release 5.6 the O_LARGEFILE flag, if available, is automatically
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added to the sysopen() flags because large files are the the default.)
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Here's how to use C<sysopen> to emulate the simple C<open> calls we had
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before. We'll omit the C<|| die $!> checks for clarity, but make sure
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you always check the return values in real code. These aren't quite
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the same, since C<open> will trim leading and trailing white space,
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but you'll get the idea:
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To open a file for reading:
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open(FH, "< $path");
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sysopen(FH, $path, O_RDONLY);
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To open a file for writing, creating a new file if needed or else truncating
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an old file:
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open(FH, "> $path");
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sysopen(FH, $path, O_WRONLY | O_TRUNC | O_CREAT);
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To open a file for appending, creating one if necessary:
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open(FH, ">> $path");
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sysopen(FH, $path, O_WRONLY | O_APPEND | O_CREAT);
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To open a file for update, where the file must already exist:
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open(FH, "+< $path");
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sysopen(FH, $path, O_RDWR);
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And here are things you can do with C<sysopen> that you cannot do with
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a regular C<open>. As you see, it's just a matter of controlling the
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flags in the third argument.
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To open a file for writing, creating a new file which must not previously
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exist:
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sysopen(FH, $path, O_WRONLY | O_EXCL | O_CREAT);
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To open a file for appending, where that file must already exist:
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sysopen(FH, $path, O_WRONLY | O_APPEND);
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To open a file for update, creating a new file if necessary:
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sysopen(FH, $path, O_RDWR | O_CREAT);
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To open a file for update, where that file must not already exist:
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sysopen(FH, $path, O_RDWR | O_EXCL | O_CREAT);
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To open a file without blocking, creating one if necessary:
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sysopen(FH, $path, O_WRONLY | O_NONBLOCK | O_CREAT);
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=head2 Permissions E<agrave> la mode
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If you omit the MASK argument to C<sysopen>, Perl uses the octal value
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0666. The normal MASK to use for executables and directories should
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be 0777, and for anything else, 0666.
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Why so permissive? Well, it isn't really. The MASK will be modified
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by your process's current C<umask>. A umask is a number representing
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I<disabled> permissions bits; that is, bits that will not be turned on
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in the created files' permissions field.
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For example, if your C<umask> were 027, then the 020 part would
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disable the group from writing, and the 007 part would disable others
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from reading, writing, or executing. Under these conditions, passing
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C<sysopen> 0666 would create a file with mode 0640, since C<0666 &~ 027>
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is 0640.
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You should seldom use the MASK argument to C<sysopen()>. That takes
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away the user's freedom to choose what permission new files will have.
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Denying choice is almost always a bad thing. One exception would be for
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cases where sensitive or private data is being stored, such as with mail
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folders, cookie files, and internal temporary files.
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=head1 Obscure Open Tricks
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=head2 Re-Opening Files (dups)
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Sometimes you already have a filehandle open, and want to make another
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handle that's a duplicate of the first one. In the shell, we place an
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ampersand in front of a file descriptor number when doing redirections.
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For example, C<< 2>&1 >> makes descriptor 2 (that's STDERR in Perl)
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be redirected into descriptor 1 (which is usually Perl's STDOUT).
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The same is essentially true in Perl: a filename that begins with an
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ampersand is treated instead as a file descriptor if a number, or as a
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filehandle if a string.
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open(SAVEOUT, ">&SAVEERR") || die "couldn't dup SAVEERR: $!";
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open(MHCONTEXT, "<&4") || die "couldn't dup fd4: $!";
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That means that if a function is expecting a filename, but you don't
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want to give it a filename because you already have the file open, you
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can just pass the filehandle with a leading ampersand. It's best to
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use a fully qualified handle though, just in case the function happens
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to be in a different package:
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somefunction("&main::LOGFILE");
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This way if somefunction() is planning on opening its argument, it can
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just use the already opened handle. This differs from passing a handle,
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because with a handle, you don't open the file. Here you have something
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you can pass to open.
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If you have one of those tricky, newfangled I/O objects that the C++
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folks are raving about, then this doesn't work because those aren't a
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proper filehandle in the native Perl sense. You'll have to use fileno()
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to pull out the proper descriptor number, assuming you can:
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use IO::Socket;
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$handle = IO::Socket::INET->new("www.perl.com:80");
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$fd = $handle->fileno;
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somefunction("&$fd"); # not an indirect function call
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It can be easier (and certainly will be faster) just to use real
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filehandles though:
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use IO::Socket;
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local *REMOTE = IO::Socket::INET->new("www.perl.com:80");
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die "can't connect" unless defined(fileno(REMOTE));
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somefunction("&main::REMOTE");
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If the filehandle or descriptor number is preceded not just with a simple
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"&" but rather with a "&=" combination, then Perl will not create a
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completely new descriptor opened to the same place using the dup(2)
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system call. Instead, it will just make something of an alias to the
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existing one using the fdopen(3S) library call This is slightly more
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parsimonious of systems resources, although this is less a concern
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these days. Here's an example of that:
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$fd = $ENV{"MHCONTEXTFD"};
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open(MHCONTEXT, "<&=$fd") or die "couldn't fdopen $fd: $!";
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If you're using magic C<< <ARGV> >>, you could even pass in as a
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command line argument in @ARGV something like C<"<&=$MHCONTEXTFD">,
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but we've never seen anyone actually do this.
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=head2 Dispelling the Dweomer
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Perl is more of a DWIMmer language than something like Java--where DWIM
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is an acronym for "do what I mean". But this principle sometimes leads
|
|
to more hidden magic than one knows what to do with. In this way, Perl
|
|
is also filled with I<dweomer>, an obscure word meaning an enchantment.
|
|
Sometimes, Perl's DWIMmer is just too much like dweomer for comfort.
|
|
|
|
If magic C<open> is a bit too magical for you, you don't have to turn
|
|
to C<sysopen>. To open a file with arbitrary weird characters in
|
|
it, it's necessary to protect any leading and trailing whitespace.
|
|
Leading whitespace is protected by inserting a C<"./"> in front of a
|
|
filename that starts with whitespace. Trailing whitespace is protected
|
|
by appending an ASCII NUL byte (C<"\0">) at the end off the string.
|
|
|
|
$file =~ s#^(\s)#./$1#;
|
|
open(FH, "< $file\0") || die "can't open $file: $!";
|
|
|
|
This assumes, of course, that your system considers dot the current
|
|
working directory, slash the directory separator, and disallows ASCII
|
|
NULs within a valid filename. Most systems follow these conventions,
|
|
including all POSIX systems as well as proprietary Microsoft systems.
|
|
The only vaguely popular system that doesn't work this way is the
|
|
proprietary Macintosh system, which uses a colon where the rest of us
|
|
use a slash. Maybe C<sysopen> isn't such a bad idea after all.
|
|
|
|
If you want to use C<< <ARGV> >> processing in a totally boring
|
|
and non-magical way, you could do this first:
|
|
|
|
# "Sam sat on the ground and put his head in his hands.
|
|
# 'I wish I had never come here, and I don't want to see
|
|
# no more magic,' he said, and fell silent."
|
|
for (@ARGV) {
|
|
s#^([^./])#./$1#;
|
|
$_ .= "\0";
|
|
}
|
|
while (<>) {
|
|
# now process $_
|
|
}
|
|
|
|
But be warned that users will not appreciate being unable to use "-"
|
|
to mean standard input, per the standard convention.
|
|
|
|
=head2 Paths as Opens
|
|
|
|
You've probably noticed how Perl's C<warn> and C<die> functions can
|
|
produce messages like:
|
|
|
|
Some warning at scriptname line 29, <FH> line 7.
|
|
|
|
That's because you opened a filehandle FH, and had read in seven records
|
|
from it. But what was the name of the file, not the handle?
|
|
|
|
If you aren't running with C<strict refs>, or if you've turn them off
|
|
temporarily, then all you have to do is this:
|
|
|
|
open($path, "< $path") || die "can't open $path: $!";
|
|
while (<$path>) {
|
|
# whatever
|
|
}
|
|
|
|
Since you're using the pathname of the file as its handle,
|
|
you'll get warnings more like
|
|
|
|
Some warning at scriptname line 29, </etc/motd> line 7.
|
|
|
|
=head2 Single Argument Open
|
|
|
|
Remember how we said that Perl's open took two arguments? That was a
|
|
passive prevarication. You see, it can also take just one argument.
|
|
If and only if the variable is a global variable, not a lexical, you
|
|
can pass C<open> just one argument, the filehandle, and it will
|
|
get the path from the global scalar variable of the same name.
|
|
|
|
$FILE = "/etc/motd";
|
|
open FILE or die "can't open $FILE: $!";
|
|
while (<FILE>) {
|
|
# whatever
|
|
}
|
|
|
|
Why is this here? Someone has to cater to the hysterical porpoises.
|
|
It's something that's been in Perl since the very beginning, if not
|
|
before.
|
|
|
|
=head2 Playing with STDIN and STDOUT
|
|
|
|
One clever move with STDOUT is to explicitly close it when you're done
|
|
with the program.
|
|
|
|
END { close(STDOUT) || die "can't close stdout: $!" }
|
|
|
|
If you don't do this, and your program fills up the disk partition due
|
|
to a command line redirection, it won't report the error exit with a
|
|
failure status.
|
|
|
|
You don't have to accept the STDIN and STDOUT you were given. You are
|
|
welcome to reopen them if you'd like.
|
|
|
|
open(STDIN, "< datafile")
|
|
|| die "can't open datafile: $!";
|
|
|
|
open(STDOUT, "> output")
|
|
|| die "can't open output: $!";
|
|
|
|
And then these can be read directly or passed on to subprocesses.
|
|
This makes it look as though the program were initially invoked
|
|
with those redirections from the command line.
|
|
|
|
It's probably more interesting to connect these to pipes. For example:
|
|
|
|
$pager = $ENV{PAGER} || "(less || more)";
|
|
open(STDOUT, "| $pager")
|
|
|| die "can't fork a pager: $!";
|
|
|
|
This makes it appear as though your program were called with its stdout
|
|
already piped into your pager. You can also use this kind of thing
|
|
in conjunction with an implicit fork to yourself. You might do this
|
|
if you would rather handle the post processing in your own program,
|
|
just in a different process:
|
|
|
|
head(100);
|
|
while (<>) {
|
|
print;
|
|
}
|
|
|
|
sub head {
|
|
my $lines = shift || 20;
|
|
return unless $pid = open(STDOUT, "|-");
|
|
die "cannot fork: $!" unless defined $pid;
|
|
while (<STDIN>) {
|
|
print;
|
|
last if --$lines < 0;
|
|
}
|
|
exit;
|
|
}
|
|
|
|
This technique can be applied to repeatedly push as many filters on your
|
|
output stream as you wish.
|
|
|
|
=head1 Other I/O Issues
|
|
|
|
These topics aren't really arguments related to C<open> or C<sysopen>,
|
|
but they do affect what you do with your open files.
|
|
|
|
=head2 Opening Non-File Files
|
|
|
|
When is a file not a file? Well, you could say when it exists but
|
|
isn't a plain file. We'll check whether it's a symbolic link first,
|
|
just in case.
|
|
|
|
if (-l $file || ! -f _) {
|
|
print "$file is not a plain file\n";
|
|
}
|
|
|
|
What other kinds of files are there than, well, files? Directories,
|
|
symbolic links, named pipes, Unix-domain sockets, and block and character
|
|
devices. Those are all files, too--just not I<plain> files. This isn't
|
|
the same issue as being a text file. Not all text files are plain files.
|
|
Not all plain files are textfiles. That's why there are separate C<-f>
|
|
and C<-T> file tests.
|
|
|
|
To open a directory, you should use the C<opendir> function, then
|
|
process it with C<readdir>, carefully restoring the directory
|
|
name if necessary:
|
|
|
|
opendir(DIR, $dirname) or die "can't opendir $dirname: $!";
|
|
while (defined($file = readdir(DIR))) {
|
|
# do something with "$dirname/$file"
|
|
}
|
|
closedir(DIR);
|
|
|
|
If you want to process directories recursively, it's better to use the
|
|
File::Find module. For example, this prints out all files recursively,
|
|
add adds a slash to their names if the file is a directory.
|
|
|
|
@ARGV = qw(.) unless @ARGV;
|
|
use File::Find;
|
|
find sub { print $File::Find::name, -d && '/', "\n" }, @ARGV;
|
|
|
|
This finds all bogus symbolic links beneath a particular directory:
|
|
|
|
find sub { print "$File::Find::name\n" if -l && !-e }, $dir;
|
|
|
|
As you see, with symbolic links, you can just pretend that it is
|
|
what it points to. Or, if you want to know I<what> it points to, then
|
|
C<readlink> is called for:
|
|
|
|
if (-l $file) {
|
|
if (defined($whither = readlink($file))) {
|
|
print "$file points to $whither\n";
|
|
} else {
|
|
print "$file points nowhere: $!\n";
|
|
}
|
|
}
|
|
|
|
Named pipes are a different matter. You pretend they're regular files,
|
|
but their opens will normally block until there is both a reader and
|
|
a writer. You can read more about them in L<perlipc/"Named Pipes">.
|
|
Unix-domain sockets are rather different beasts as well; they're
|
|
described in L<perlipc/"Unix-Domain TCP Clients and Servers">.
|
|
|
|
When it comes to opening devices, it can be easy and it can tricky.
|
|
We'll assume that if you're opening up a block device, you know what
|
|
you're doing. The character devices are more interesting. These are
|
|
typically used for modems, mice, and some kinds of printers. This is
|
|
described in L<perlfaq8/"How do I read and write the serial port?">
|
|
It's often enough to open them carefully:
|
|
|
|
sysopen(TTYIN, "/dev/ttyS1", O_RDWR | O_NDELAY | O_NOCTTY)
|
|
# (O_NOCTTY no longer needed on POSIX systems)
|
|
or die "can't open /dev/ttyS1: $!";
|
|
open(TTYOUT, "+>&TTYIN")
|
|
or die "can't dup TTYIN: $!";
|
|
|
|
$ofh = select(TTYOUT); $| = 1; select($ofh);
|
|
|
|
print TTYOUT "+++at\015";
|
|
$answer = <TTYIN>;
|
|
|
|
With descriptors that you haven't opened using C<sysopen>, such as a
|
|
socket, you can set them to be non-blocking using C<fcntl>:
|
|
|
|
use Fcntl;
|
|
fcntl(Connection, F_SETFL, O_NONBLOCK)
|
|
or die "can't set non blocking: $!";
|
|
|
|
Rather than losing yourself in a morass of twisting, turning C<ioctl>s,
|
|
all dissimilar, if you're going to manipulate ttys, it's best to
|
|
make calls out to the stty(1) program if you have it, or else use the
|
|
portable POSIX interface. To figure this all out, you'll need to read the
|
|
termios(3) manpage, which describes the POSIX interface to tty devices,
|
|
and then L<POSIX>, which describes Perl's interface to POSIX. There are
|
|
also some high-level modules on CPAN that can help you with these games.
|
|
Check out Term::ReadKey and Term::ReadLine.
|
|
|
|
What else can you open? To open a connection using sockets, you won't use
|
|
one of Perl's two open functions. See L<perlipc/"Sockets: Client/Server
|
|
Communication"> for that. Here's an example. Once you have it,
|
|
you can use FH as a bidirectional filehandle.
|
|
|
|
use IO::Socket;
|
|
local *FH = IO::Socket::INET->new("www.perl.com:80");
|
|
|
|
For opening up a URL, the LWP modules from CPAN are just what
|
|
the doctor ordered. There's no filehandle interface, but
|
|
it's still easy to get the contents of a document:
|
|
|
|
use LWP::Simple;
|
|
$doc = get('http://www.linpro.no/lwp/');
|
|
|
|
=head2 Binary Files
|
|
|
|
On certain legacy systems with what could charitably be called terminally
|
|
convoluted (some would say broken) I/O models, a file isn't a file--at
|
|
least, not with respect to the C standard I/O library. On these old
|
|
systems whose libraries (but not kernels) distinguish between text and
|
|
binary streams, to get files to behave properly you'll have to bend over
|
|
backwards to avoid nasty problems. On such infelicitous systems, sockets
|
|
and pipes are already opened in binary mode, and there is currently no
|
|
way to turn that off. With files, you have more options.
|
|
|
|
Another option is to use the C<binmode> function on the appropriate
|
|
handles before doing regular I/O on them:
|
|
|
|
binmode(STDIN);
|
|
binmode(STDOUT);
|
|
while (<STDIN>) { print }
|
|
|
|
Passing C<sysopen> a non-standard flag option will also open the file in
|
|
binary mode on those systems that support it. This is the equivalent of
|
|
opening the file normally, then calling C<binmode>ing on the handle.
|
|
|
|
sysopen(BINDAT, "records.data", O_RDWR | O_BINARY)
|
|
|| die "can't open records.data: $!";
|
|
|
|
Now you can use C<read> and C<print> on that handle without worrying
|
|
about the system non-standard I/O library breaking your data. It's not
|
|
a pretty picture, but then, legacy systems seldom are. CP/M will be
|
|
with us until the end of days, and after.
|
|
|
|
On systems with exotic I/O systems, it turns out that, astonishingly
|
|
enough, even unbuffered I/O using C<sysread> and C<syswrite> might do
|
|
sneaky data mutilation behind your back.
|
|
|
|
while (sysread(WHENCE, $buf, 1024)) {
|
|
syswrite(WHITHER, $buf, length($buf));
|
|
}
|
|
|
|
Depending on the vicissitudes of your runtime system, even these calls
|
|
may need C<binmode> or C<O_BINARY> first. Systems known to be free of
|
|
such difficulties include Unix, the Mac OS, Plan9, and Inferno.
|
|
|
|
=head2 File Locking
|
|
|
|
In a multitasking environment, you may need to be careful not to collide
|
|
with other processes who want to do I/O on the same files as others
|
|
are working on. You'll often need shared or exclusive locks
|
|
on files for reading and writing respectively. You might just
|
|
pretend that only exclusive locks exist.
|
|
|
|
Never use the existence of a file C<-e $file> as a locking indication,
|
|
because there is a race condition between the test for the existence of
|
|
the file and its creation. Atomicity is critical.
|
|
|
|
Perl's most portable locking interface is via the C<flock> function,
|
|
whose simplicity is emulated on systems that don't directly support it,
|
|
such as SysV or WindowsNT. The underlying semantics may affect how
|
|
it all works, so you should learn how C<flock> is implemented on your
|
|
system's port of Perl.
|
|
|
|
File locking I<does not> lock out another process that would like to
|
|
do I/O. A file lock only locks out others trying to get a lock, not
|
|
processes trying to do I/O. Because locks are advisory, if one process
|
|
uses locking and another doesn't, all bets are off.
|
|
|
|
By default, the C<flock> call will block until a lock is granted.
|
|
A request for a shared lock will be granted as soon as there is no
|
|
exclusive locker. A request for a exclusive lock will be granted as
|
|
soon as there is no locker of any kind. Locks are on file descriptors,
|
|
not file names. You can't lock a file until you open it, and you can't
|
|
hold on to a lock once the file has been closed.
|
|
|
|
Here's how to get a blocking shared lock on a file, typically used
|
|
for reading:
|
|
|
|
use 5.004;
|
|
use Fcntl qw(:DEFAULT :flock);
|
|
open(FH, "< filename") or die "can't open filename: $!";
|
|
flock(FH, LOCK_SH) or die "can't lock filename: $!";
|
|
# now read from FH
|
|
|
|
You can get a non-blocking lock by using C<LOCK_NB>.
|
|
|
|
flock(FH, LOCK_SH | LOCK_NB)
|
|
or die "can't lock filename: $!";
|
|
|
|
This can be useful for producing more user-friendly behaviour by warning
|
|
if you're going to be blocking:
|
|
|
|
use 5.004;
|
|
use Fcntl qw(:DEFAULT :flock);
|
|
open(FH, "< filename") or die "can't open filename: $!";
|
|
unless (flock(FH, LOCK_SH | LOCK_NB)) {
|
|
$| = 1;
|
|
print "Waiting for lock...";
|
|
flock(FH, LOCK_SH) or die "can't lock filename: $!";
|
|
print "got it.\n"
|
|
}
|
|
# now read from FH
|
|
|
|
To get an exclusive lock, typically used for writing, you have to be
|
|
careful. We C<sysopen> the file so it can be locked before it gets
|
|
emptied. You can get a nonblocking version using C<LOCK_EX | LOCK_NB>.
|
|
|
|
use 5.004;
|
|
use Fcntl qw(:DEFAULT :flock);
|
|
sysopen(FH, "filename", O_WRONLY | O_CREAT)
|
|
or die "can't open filename: $!";
|
|
flock(FH, LOCK_EX)
|
|
or die "can't lock filename: $!";
|
|
truncate(FH, 0)
|
|
or die "can't truncate filename: $!";
|
|
# now write to FH
|
|
|
|
Finally, due to the uncounted millions who cannot be dissuaded from
|
|
wasting cycles on useless vanity devices called hit counters, here's
|
|
how to increment a number in a file safely:
|
|
|
|
use Fcntl qw(:DEFAULT :flock);
|
|
|
|
sysopen(FH, "numfile", O_RDWR | O_CREAT)
|
|
or die "can't open numfile: $!";
|
|
# autoflush FH
|
|
$ofh = select(FH); $| = 1; select ($ofh);
|
|
flock(FH, LOCK_EX)
|
|
or die "can't write-lock numfile: $!";
|
|
|
|
$num = <FH> || 0;
|
|
seek(FH, 0, 0)
|
|
or die "can't rewind numfile : $!";
|
|
print FH $num+1, "\n"
|
|
or die "can't write numfile: $!";
|
|
|
|
truncate(FH, tell(FH))
|
|
or die "can't truncate numfile: $!";
|
|
close(FH)
|
|
or die "can't close numfile: $!";
|
|
|
|
=head1 SEE ALSO
|
|
|
|
The C<open> and C<sysopen> function in perlfunc(1);
|
|
the standard open(2), dup(2), fopen(3), and fdopen(3) manpages;
|
|
the POSIX documentation.
|
|
|
|
=head1 AUTHOR and COPYRIGHT
|
|
|
|
Copyright 1998 Tom Christiansen.
|
|
|
|
When included as part of the Standard Version of Perl, or as part of
|
|
its complete documentation whether printed or otherwise, this work may
|
|
be distributed only under the terms of Perl's Artistic License. Any
|
|
distribution of this file or derivatives thereof outside of that
|
|
package require that special arrangements be made with copyright
|
|
holder.
|
|
|
|
Irrespective of its distribution, all code examples in these files are
|
|
hereby placed into the public domain. You are permitted and
|
|
encouraged to use this code in your own programs for fun or for profit
|
|
as you see fit. A simple comment in the code giving credit would be
|
|
courteous but is not required.
|
|
|
|
=head1 HISTORY
|
|
|
|
First release: Sat Jan 9 08:09:11 MST 1999
|