4 perlfunc - Perl builtin functions
8 The functions in this section can serve as terms in an expression.
9 They fall into two major categories: list operators and named unary
10 operators. These differ in their precedence relationship with a
11 following comma. (See the precedence table in L<perlop>.) List
12 operators take more than one argument, while unary operators can never
13 take more than one argument. Thus, a comma terminates the argument of
14 a unary operator, but merely separates the arguments of a list
15 operator. A unary operator generally provides a scalar context to its
16 argument, while a list operator may provide either scalar and list
17 contexts for its arguments. If it does both, the scalar arguments will
18 be first, and the list argument will follow. (Note that there can ever
19 be only one list argument.) For instance, splice() has three scalar
20 arguments followed by a list.
22 In the syntax descriptions that follow, list operators that expect a
23 list (and provide list context for the elements of the list) are shown
24 with LIST as an argument. Such a list may consist of any combination
25 of scalar arguments or list values; the list values will be included
26 in the list as if each individual element were interpolated at that
27 point in the list, forming a longer single-dimensional list value.
28 Elements of the LIST should be separated by commas.
30 Any function in the list below may be used either with or without
31 parentheses around its arguments. (The syntax descriptions omit the
32 parentheses.) If you use the parentheses, the simple (but occasionally
33 surprising) rule is this: It I<LOOKS> like a function, therefore it I<IS> a
34 function, and precedence doesn't matter. Otherwise it's a list
35 operator or unary operator, and precedence does matter. And whitespace
36 between the function and left parenthesis doesn't count--so you need to
39 print 1+2+4; # Prints 7.
40 print(1+2) + 4; # Prints 3.
41 print (1+2)+4; # Also prints 3!
42 print +(1+2)+4; # Prints 7.
43 print ((1+2)+4); # Prints 7.
45 If you run Perl with the B<-w> switch it can warn you about this. For
46 example, the third line above produces:
48 print (...) interpreted as function at - line 1.
49 Useless use of integer addition in void context at - line 1.
51 For functions that can be used in either a scalar or list context,
52 nonabortive failure is generally indicated in a scalar context by
53 returning the undefined value, and in a list context by returning the
56 Remember the following rule:
60 =item I<THERE IS NO GENERAL RULE FOR CONVERTING A LIST INTO A SCALAR!>
64 Each operator and function decides which sort of value it would be most
65 appropriate to return in a scalar context. Some operators return the
66 length of the list that would have been returned in a list context. Some
67 operators return the first value in the list. Some operators return the
68 last value in the list. Some operators return a count of successful
69 operations. In general, they do what you want, unless you want
72 =head2 Perl Functions by Category
74 Here are Perl's functions (including things that look like
75 functions, like some of the keywords and named operators)
76 arranged by category. Some functions appear in more
81 =item Functions for SCALARs or strings
83 C<chomp>, C<chop>, C<chr>, C<crypt>, C<hex>, C<index>, C<lc>, C<lcfirst>,
84 C<length>, C<oct>, C<ord>, C<pack>, C<q>/STRING/, C<qq>/STRING/, C<reverse>,
85 C<rindex>, C<sprintf>, C<substr>, C<tr///>, C<uc>, C<ucfirst>, C<y>///
87 =item Regular expressions and pattern matching
89 C<m>//, C<pos>, C<quotemeta>, C<s>///, C<split>, C<study>
91 =item Numeric functions
93 C<abs>, C<atan2>, C<cos>, C<exp>, C<hex>, C<int>, C<log>, C<oct>, C<rand>,
94 C<sin>, C<sqrt>, C<srand>
96 =item Functions for real @ARRAYs
98 C<pop>, C<push>, C<shift>, C<splice>, C<unshift>
100 =item Functions for list data
102 C<grep>, C<join>, C<map>, C<qw>/STRING/, C<reverse>, C<sort>, C<unpack>
104 =item Functions for real %HASHes
106 C<delete>, C<each>, C<exists>, C<keys>, C<values>
108 =item Input and output functions
110 C<binmode>, C<close>, C<closedir>, C<dbmclose>, C<dbmopen>, C<die>, C<eof>,
111 C<fileno>, C<flock>, C<format>, C<getc>, C<print>, C<printf>, C<read>,
112 C<readdir>, C<rewinddir>, C<seek>, C<seekdir>, C<select>, C<syscall>,
113 C<sysread>, C<sysseek>, C<syswrite>, C<tell>, C<telldir>, C<truncate>,
116 =item Functions for fixed length data or records
118 C<pack>, C<read>, C<syscall>, C<sysread>, C<syswrite>, C<unpack>, C<vec>
120 =item Functions for filehandles, files, or directories
122 C<-I<X>>, C<chdir>, C<chmod>, C<chown>, C<chroot>, C<fcntl>, C<glob>,
123 C<ioctl>, C<link>, C<lstat>, C<mkdir>, C<open>, C<opendir>, C<readlink>,
124 C<rename>, C<rmdir>, C<stat>, C<symlink>, C<umask>, C<unlink>, C<utime>
126 =item Keywords related to the control flow of your perl program
128 C<caller>, C<continue>, C<die>, C<do>, C<dump>, C<eval>, C<exit>,
129 C<goto>, C<last>, C<next>, C<redo>, C<return>, C<sub>, C<wantarray>
131 =item Keywords related to scoping
133 C<caller>, C<import>, C<local>, C<my>, C<package>, C<use>
135 =item Miscellaneous functions
137 C<defined>, C<dump>, C<eval>, C<formline>, C<local>, C<my>, C<reset>,
138 C<scalar>, C<undef>, C<wantarray>
140 =item Functions for processes and process groups
142 C<alarm>, C<exec>, C<fork>, C<getpgrp>, C<getppid>, C<getpriority>, C<kill>,
143 C<pipe>, C<qx>/STRING/, C<setpgrp>, C<setpriority>, C<sleep>, C<system>,
144 C<times>, C<wait>, C<waitpid>
146 =item Keywords related to perl modules
148 C<do>, C<import>, C<no>, C<package>, C<require>, C<use>
150 =item Keywords related to classes and object-orientedness
152 C<bless>, C<dbmclose>, C<dbmopen>, C<package>, C<ref>, C<tie>, C<tied>,
155 =item Low-level socket functions
157 C<accept>, C<bind>, C<connect>, C<getpeername>, C<getsockname>,
158 C<getsockopt>, C<listen>, C<recv>, C<send>, C<setsockopt>, C<shutdown>,
159 C<socket>, C<socketpair>
161 =item System V interprocess communication functions
163 C<msgctl>, C<msgget>, C<msgrcv>, C<msgsnd>, C<semctl>, C<semget>, C<semop>,
164 C<shmctl>, C<shmget>, C<shmread>, C<shmwrite>
166 =item Fetching user and group info
168 C<endgrent>, C<endhostent>, C<endnetent>, C<endpwent>, C<getgrent>,
169 C<getgrgid>, C<getgrnam>, C<getlogin>, C<getpwent>, C<getpwnam>,
170 C<getpwuid>, C<setgrent>, C<setpwent>
172 =item Fetching network info
174 C<endprotoent>, C<endservent>, C<gethostbyaddr>, C<gethostbyname>,
175 C<gethostent>, C<getnetbyaddr>, C<getnetbyname>, C<getnetent>,
176 C<getprotobyname>, C<getprotobynumber>, C<getprotoent>,
177 C<getservbyname>, C<getservbyport>, C<getservent>, C<sethostent>,
178 C<setnetent>, C<setprotoent>, C<setservent>
180 =item Time-related functions
182 C<gmtime>, C<localtime>, C<time>, C<times>
184 =item Functions new in perl5
186 C<abs>, C<bless>, C<chomp>, C<chr>, C<exists>, C<formline>, C<glob>,
187 C<import>, C<lc>, C<lcfirst>, C<map>, C<my>, C<no>, C<prototype>, C<qx>,
188 C<qw>, C<readline>, C<readpipe>, C<ref>, C<sub*>, C<sysopen>, C<tie>,
189 C<tied>, C<uc>, C<ucfirst>, C<untie>, C<use>
191 * - C<sub> was a keyword in perl4, but in perl5 it is an
192 operator which can be used in expressions.
194 =item Functions obsoleted in perl5
196 C<dbmclose>, C<dbmopen>
200 =head2 Alphabetical Listing of Perl Functions
204 =item I<-X> FILEHANDLE
210 A file test, where X is one of the letters listed below. This unary
211 operator takes one argument, either a filename or a filehandle, and
212 tests the associated file to see if something is true about it. If the
213 argument is omitted, tests $_, except for C<-t>, which tests STDIN.
214 Unless otherwise documented, it returns C<1> for TRUE and C<''> for FALSE, or
215 the undefined value if the file doesn't exist. Despite the funny
216 names, precedence is the same as any other named unary operator, and
217 the argument may be parenthesized like any other unary operator. The
218 operator may be any of:
220 -r File is readable by effective uid/gid.
221 -w File is writable by effective uid/gid.
222 -x File is executable by effective uid/gid.
223 -o File is owned by effective uid.
225 -R File is readable by real uid/gid.
226 -W File is writable by real uid/gid.
227 -X File is executable by real uid/gid.
228 -O File is owned by real uid.
231 -z File has zero size.
232 -s File has nonzero size (returns size).
234 -f File is a plain file.
235 -d File is a directory.
236 -l File is a symbolic link.
237 -p File is a named pipe (FIFO).
239 -b File is a block special file.
240 -c File is a character special file.
241 -t Filehandle is opened to a tty.
243 -u File has setuid bit set.
244 -g File has setgid bit set.
245 -k File has sticky bit set.
247 -T File is a text file.
248 -B File is a binary file (opposite of -T).
250 -M Age of file in days when script started.
251 -A Same for access time.
252 -C Same for inode change time.
254 The interpretation of the file permission operators C<-r>, C<-R>, C<-w>,
255 C<-W>, C<-x>, and C<-X> is based solely on the mode of the file and the
256 uids and gids of the user. There may be other reasons you can't actually
257 read, write or execute the file. Also note that, for the superuser,
258 C<-r>, C<-R>, C<-w>, and C<-W> always return 1, and C<-x> and C<-X> return
259 1 if any execute bit is set in the mode. Scripts run by the superuser may
260 thus need to do a stat() to determine the actual mode of the
261 file, or temporarily set the uid to something else.
267 next unless -f $_; # ignore specials
271 Note that C<-s/a/b/> does not do a negated substitution. Saying
272 C<-exp($foo)> still works as expected, however--only single letters
273 following a minus are interpreted as file tests.
275 The C<-T> and C<-B> switches work as follows. The first block or so of the
276 file is examined for odd characters such as strange control codes or
277 characters with the high bit set. If too many odd characters (E<gt>30%)
278 are found, it's a C<-B> file, otherwise it's a C<-T> file. Also, any file
279 containing null in the first block is considered a binary file. If C<-T>
280 or C<-B> is used on a filehandle, the current stdio buffer is examined
281 rather than the first block. Both C<-T> and C<-B> return TRUE on a null
282 file, or a file at EOF when testing a filehandle. Because you have to
283 read a file to do the C<-T> test, on most occasions you want to use a C<-f>
284 against the file first, as in C<next unless -f $file && -T $file>.
286 If any of the file tests (or either the stat() or lstat() operators) are given
287 the special filehandle consisting of a solitary underline, then the stat
288 structure of the previous file test (or stat operator) is used, saving
289 a system call. (This doesn't work with C<-t>, and you need to remember
290 that lstat() and C<-l> will leave values in the stat structure for the
291 symbolic link, not the real file.) Example:
293 print "Can do.\n" if -r $a || -w _ || -x _;
296 print "Readable\n" if -r _;
297 print "Writable\n" if -w _;
298 print "Executable\n" if -x _;
299 print "Setuid\n" if -u _;
300 print "Setgid\n" if -g _;
301 print "Sticky\n" if -k _;
302 print "Text\n" if -T _;
303 print "Binary\n" if -B _;
309 Returns the absolute value of its argument.
310 If VALUE is omitted, uses $_.
312 =item accept NEWSOCKET,GENERICSOCKET
314 Accepts an incoming socket connect, just as the accept(2) system call
315 does. Returns the packed address if it succeeded, FALSE otherwise.
316 See example in L<perlipc/"Sockets: Client/Server Communication">.
322 Arranges to have a SIGALRM delivered to this process after the
323 specified number of seconds have elapsed. If SECONDS is not specified,
324 the value stored in $_ is used. (On some machines,
325 unfortunately, the elapsed time may be up to one second less than you
326 specified because of how seconds are counted.) Only one timer may be
327 counting at once. Each call disables the previous timer, and an
328 argument of 0 may be supplied to cancel the previous timer without
329 starting a new one. The returned value is the amount of time remaining
330 on the previous timer.
332 For delays of finer granularity than one second, you may use Perl's
333 syscall() interface to access setitimer(2) if your system supports it,
334 or else see L</select()>. It is usually a mistake to intermix alarm()
337 If you want to use alarm() to time out a system call you need to use an
338 eval/die pair. You can't rely on the alarm causing the system call to
339 fail with $! set to EINTR because Perl sets up signal handlers to
340 restart system calls on some systems. Using eval/die always works.
343 local $SIG{ALRM} = sub { die "alarm\n" }; # NB \n required
345 $nread = sysread SOCKET, $buffer, $size;
348 die if $@ && $@ ne "alarm\n"; # propagate errors
358 Returns the arctangent of Y/X in the range -PI to PI.
360 For the tangent operation, you may use the POSIX::tan()
361 function, or use the familiar relation:
363 sub tan { sin($_[0]) / cos($_[0]) }
365 =item bind SOCKET,NAME
367 Binds a network address to a socket, just as the bind system call
368 does. Returns TRUE if it succeeded, FALSE otherwise. NAME should be a
369 packed address of the appropriate type for the socket. See the examples in
370 L<perlipc/"Sockets: Client/Server Communication">.
372 =item binmode FILEHANDLE
374 Arranges for the file to be read or written in "binary" mode in operating
375 systems that distinguish between binary and text files. Files that are
376 not in binary mode have CR LF sequences translated to LF on input and LF
377 translated to CR LF on output. Binmode has no effect under Unix; in MS-DOS
378 and similarly archaic systems, it may be imperative--otherwise your
379 MS-DOS-damaged C library may mangle your file. The key distinction between
380 systems that need binmode and those that don't is their text file
381 formats. Systems like Unix and Plan9 that delimit lines with a single
382 character, and that encode that character in C as '\n', do not need
383 C<binmode>. The rest need it. If FILEHANDLE is an expression, the value
384 is taken as the name of the filehandle.
386 =item bless REF,CLASSNAME
390 This function tells the thingy referenced by REF that it is now
391 an object in the CLASSNAME package--or the current package if no CLASSNAME
392 is specified, which is often the case. It returns the reference for
393 convenience, because a bless() is often the last thing in a constructor.
394 Always use the two-argument version if the function doing the blessing
395 might be inherited by a derived class. See L<perlobj> for more about the
396 blessing (and blessings) of objects.
402 Returns the context of the current subroutine call. In a scalar context,
403 returns the caller's package name if there is a caller, that is, if
404 we're in a subroutine or eval() or require(), and the undefined value
405 otherwise. In a list context, returns
407 ($package, $filename, $line) = caller;
409 With EXPR, it returns some extra information that the debugger uses to
410 print a stack trace. The value of EXPR indicates how many call frames
411 to go back before the current one.
413 ($package, $filename, $line, $subroutine,
414 $hasargs, $wantarray, $evaltext, $is_require) = caller($i);
416 Here $subroutine may be C<"(eval)"> if the frame is not a subroutine
417 call, but an C<eval>. In such a case additional elements $evaltext and
418 $is_require are set: $is_require is true if the frame is created by a
419 C<require> or C<use> statement, $evaltext contains the text of the
420 C<eval EXPR> statement. In particular, for a C<eval BLOCK> statement,
421 $filename is C<"(eval)">, but $evaltext is undefined. (Note also that
422 each C<use> statement creates a C<require> frame inside an C<eval EXPR>)
425 Furthermore, when called from within the DB package, caller returns more
426 detailed information: it sets the list variable @DB::args to be the
427 arguments with which the subroutine was invoked.
431 Changes the working directory to EXPR, if possible. If EXPR is
432 omitted, changes to home directory. Returns TRUE upon success, FALSE
433 otherwise. See example under die().
437 Changes the permissions of a list of files. The first element of the
438 list must be the numerical mode, which should probably be an octal
439 number, and which definitely should I<not> a string of octal digits:
440 C<0644> is okay, C<'0644'> is not. Returns the number of files
441 successfully changed. See also L</oct>, if all you have is a string.
443 $cnt = chmod 0755, 'foo', 'bar';
444 chmod 0755, @executables;
445 $mode = '0644'; chmod $mode, 'foo'; # !!! sets mode to --w----r-T
446 $mode = '0644'; chmod oct($mode), 'foo'; # this is better
447 $mode = 0644; chmod $mode, 'foo'; # this is best
455 This is a slightly safer version of L</chop>. It removes any
456 line ending that corresponds to the current value of C<$/> (also known as
457 $INPUT_RECORD_SEPARATOR in the C<English> module). It returns the total
458 number of characters removed from all its arguments. It's often used to
459 remove the newline from the end of an input record when you're worried
460 that the final record may be missing its newline. When in paragraph mode
461 (C<$/ = "">), it removes all trailing newlines from the string. If
462 VARIABLE is omitted, it chomps $_. Example:
465 chomp; # avoid \n on last field
470 You can actually chomp anything that's an lvalue, including an assignment:
473 chomp($answer = <STDIN>);
475 If you chomp a list, each element is chomped, and the total number of
476 characters removed is returned.
484 Chops off the last character of a string and returns the character
485 chopped. It's used primarily to remove the newline from the end of an
486 input record, but is much more efficient than C<s/\n//> because it neither
487 scans nor copies the string. If VARIABLE is omitted, chops $_.
491 chop; # avoid \n on last field
496 You can actually chop anything that's an lvalue, including an assignment:
499 chop($answer = <STDIN>);
501 If you chop a list, each element is chopped. Only the value of the
502 last chop is returned.
504 Note that chop returns the last character. To return all but the last
505 character, use C<substr($string, 0, -1)>.
509 Changes the owner (and group) of a list of files. The first two
510 elements of the list must be the I<NUMERICAL> uid and gid, in that order.
511 Returns the number of files successfully changed.
513 $cnt = chown $uid, $gid, 'foo', 'bar';
514 chown $uid, $gid, @filenames;
516 Here's an example that looks up nonnumeric uids in the passwd file:
519 chop($user = <STDIN>);
521 chop($pattern = <STDIN>);
523 ($login,$pass,$uid,$gid) = getpwnam($user)
524 or die "$user not in passwd file";
526 @ary = <${pattern}>; # expand filenames
527 chown $uid, $gid, @ary;
529 On most systems, you are not allowed to change the ownership of the
530 file unless you're the superuser, although you should be able to change
531 the group to any of your secondary groups. On insecure systems, these
532 restrictions may be relaxed, but this is not a portable assumption.
538 Returns the character represented by that NUMBER in the character set.
539 For example, C<chr(65)> is "A" in ASCII. For the reverse, use L</ord>.
541 If NUMBER is omitted, uses $_.
543 =item chroot FILENAME
547 This function works as the system call by the same name: it makes the
548 named directory the new root directory for all further pathnames that
549 begin with a "/" by your process and all of its children. (It doesn't
550 change your current working directory, which is unaffected.) For security
551 reasons, this call is restricted to the superuser. If FILENAME is
552 omitted, does chroot to $_.
554 =item close FILEHANDLE
556 Closes the file or pipe associated with the file handle, returning TRUE
557 only if stdio successfully flushes buffers and closes the system file
560 You don't have to close FILEHANDLE if you are immediately going to do
561 another open() on it, because open() will close it for you. (See
562 open().) However, an explicit close on an input file resets the line
563 counter ($.), while the implicit close done by open() does not.
565 If the file handle came from a piped open C<close> will additionally
566 return FALSE if one of the other system calls involved fails or if the
567 program exits with non-zero status. (If the only problem was that the
568 program exited non-zero $! will be set to 0.) Also, closing a pipe will
569 wait for the process executing on the pipe to complete, in case you
570 want to look at the output of the pipe afterwards. Closing a pipe
571 explicitly also puts the exit status value of the command into C<$?>.
574 open(OUTPUT, '|sort >foo') # pipe to sort
575 or die "Can't start sort: $!";
576 ... # print stuff to output
577 close OUTPUT # wait for sort to finish
578 or warn $! ? "Error closing sort pipe: $!"
579 : "Exit status $? from sort";
580 open(INPUT, 'foo') # get sort's results
581 or die "Can't open 'foo' for input: $!";
583 FILEHANDLE may be an expression whose value gives the real filehandle name.
585 =item closedir DIRHANDLE
587 Closes a directory opened by opendir().
589 =item connect SOCKET,NAME
591 Attempts to connect to a remote socket, just as the connect system call
592 does. Returns TRUE if it succeeded, FALSE otherwise. NAME should be a
593 packed address of the appropriate type for the socket. See the examples in
594 L<perlipc/"Sockets: Client/Server Communication">.
598 Actually a flow control statement rather than a function. If there is a
599 C<continue> BLOCK attached to a BLOCK (typically in a C<while> or
600 C<foreach>), it is always executed just before the conditional is about to
601 be evaluated again, just like the third part of a C<for> loop in C. Thus
602 it can be used to increment a loop variable, even when the loop has been
603 continued via the C<next> statement (which is similar to the C C<continue>
608 Returns the cosine of EXPR (expressed in radians). If EXPR is omitted
611 For the inverse cosine operation, you may use the POSIX::acos()
612 function, or use this relation:
614 sub acos { atan2( sqrt(1 - $_[0] * $_[0]), $_[0] ) }
616 =item crypt PLAINTEXT,SALT
618 Encrypts a string exactly like the crypt(3) function in the C library
619 (assuming that you actually have a version there that has not been
620 extirpated as a potential munition). This can prove useful for checking
621 the password file for lousy passwords, amongst other things. Only the
622 guys wearing white hats should do this.
624 Note that crypt is intended to be a one-way function, much like breaking
625 eggs to make an omelette. There is no (known) corresponding decrypt
626 function. As a result, this function isn't all that useful for
627 cryptography. (For that, see your nearby CPAN mirror.)
629 Here's an example that makes sure that whoever runs this program knows
632 $pwd = (getpwuid($<))[1];
633 $salt = substr($pwd, 0, 2);
637 chop($word = <STDIN>);
641 if (crypt($word, $salt) ne $pwd) {
647 Of course, typing in your own password to whoever asks you
652 [This function has been superseded by the untie() function.]
654 Breaks the binding between a DBM file and a hash.
656 =item dbmopen HASH,DBNAME,MODE
658 [This function has been superseded by the tie() function.]
660 This binds a dbm(3), ndbm(3), sdbm(3), gdbm(), or Berkeley DB file to a
661 hash. HASH is the name of the hash. (Unlike normal open, the first
662 argument is I<NOT> a filehandle, even though it looks like one). DBNAME
663 is the name of the database (without the F<.dir> or F<.pag> extension if
664 any). If the database does not exist, it is created with protection
665 specified by MODE (as modified by the umask()). If your system supports
666 only the older DBM functions, you may perform only one dbmopen() in your
667 program. In older versions of Perl, if your system had neither DBM nor
668 ndbm, calling dbmopen() produced a fatal error; it now falls back to
671 If you don't have write access to the DBM file, you can only read hash
672 variables, not set them. If you want to test whether you can write,
673 either use file tests or try setting a dummy hash entry inside an eval(),
674 which will trap the error.
676 Note that functions such as keys() and values() may return huge array
677 values when used on large DBM files. You may prefer to use the each()
678 function to iterate over large DBM files. Example:
680 # print out history file offsets
681 dbmopen(%HIST,'/usr/lib/news/history',0666);
682 while (($key,$val) = each %HIST) {
683 print $key, ' = ', unpack('L',$val), "\n";
687 See also L<AnyDBM_File> for a more general description of the pros and
688 cons of the various dbm approaches, as well as L<DB_File> for a particularly
695 Returns a Boolean value telling whether EXPR has a value other than
696 the undefined value C<undef>. If EXPR is not present, C<$_> will be
699 Many operations return C<undef> to indicate failure, end of file,
700 system error, uninitialized variable, and other exceptional
701 conditions. This function allows you to distinguish C<undef> from
702 other values. (A simple Boolean test will not distinguish among
703 C<undef>, zero, the empty string, and "0", which are all equally
704 false.) Note that since C<undef> is a valid scalar, its presence
705 doesn't I<necessarily> indicate an exceptional condition: pop()
706 returns C<undef> when its argument is an empty array, I<or> when the
707 element to return happens to be C<undef>.
709 You may also use defined() to check whether a subroutine exists. On
710 the other hand, use of defined() upon aggregates (hashes and arrays)
711 is not guaranteed to produce intuitive results, and should probably be
714 When used on a hash element, it tells you whether the value is defined,
715 not whether the key exists in the hash. Use L</exists> for the latter
720 print if defined $switch{'D'};
721 print "$val\n" while defined($val = pop(@ary));
722 die "Can't readlink $sym: $!"
723 unless defined($value = readlink $sym);
724 sub foo { defined &$bar ? &$bar(@_) : die "No bar"; }
725 $debugging = 0 unless defined $debugging;
727 Note: Many folks tend to overuse defined(), and then are surprised to
728 discover that the number 0 and "" (the zero-length string) are, in fact,
729 defined values. For example, if you say
733 the pattern match succeeds, and $1 is defined, despite the fact that it
734 matched "nothing". But it didn't really match nothing--rather, it
735 matched something that happened to be 0 characters long. This is all
736 very above-board and honest. When a function returns an undefined value,
737 it's an admission that it couldn't give you an honest answer. So you
738 should use defined() only when you're questioning the integrity of what
739 you're trying to do. At other times, a simple comparison to 0 or "" is
742 Currently, using defined() on an entire array or hash reports whether
743 memory for that aggregate has ever been allocated. So an array you set
744 to the empty list appears undefined initially, and one that once was full
745 and that you then set to the empty list still appears defined. You
746 should instead use a simple test for size:
748 if (@an_array) { print "has array elements\n" }
749 if (%a_hash) { print "has hash members\n" }
751 Using undef() on these, however, does clear their memory and then report
752 them as not defined anymore, but you shoudln't do that unless you don't
753 plan to use them again, because it saves time when you load them up
754 again to have memory already ready to be filled.
756 This counterintuitive behaviour of defined() on aggregates may be
757 changed, fixed, or broken in a future release of Perl.
759 See also L</undef>, L</exists>, L</ref>.
763 Deletes the specified key(s) and their associated values from a hash.
764 For each key, returns the deleted value associated with that key, or
765 the undefined value if there was no such key. Deleting from C<$ENV{}>
766 modifies the environment. Deleting from a hash tied to a DBM file
767 deletes the entry from the DBM file. (But deleting from a tie()d hash
768 doesn't necessarily return anything.)
770 The following deletes all the values of a hash:
772 foreach $key (keys %HASH) {
778 delete @HASH{keys %HASH}
780 (But both of these are slower than the undef() command.) Note that the
781 EXPR can be arbitrarily complicated as long as the final operation is a
782 hash element lookup or hash slice:
784 delete $ref->[$x][$y]{$key};
785 delete @{$ref->[$x][$y]}{$key1, $key2, @morekeys};
789 Outside of an eval(), prints the value of LIST to C<STDERR> and exits with
790 the current value of C<$!> (errno). If C<$!> is 0, exits with the value of
791 C<($? E<gt>E<gt> 8)> (backtick `command` status). If C<($? E<gt>E<gt> 8)>
792 is 0, exits with 255. Inside an eval(), the error message is stuffed into
793 C<$@>, and the eval() is terminated with the undefined value; this makes
794 die() the way to raise an exception.
798 die "Can't cd to spool: $!\n" unless chdir '/usr/spool/news';
799 chdir '/usr/spool/news' or die "Can't cd to spool: $!\n"
801 If the value of EXPR does not end in a newline, the current script line
802 number and input line number (if any) are also printed, and a newline
803 is supplied. Hint: sometimes appending ", stopped" to your message
804 will cause it to make better sense when the string "at foo line 123" is
805 appended. Suppose you are running script "canasta".
807 die "/etc/games is no good";
808 die "/etc/games is no good, stopped";
810 produce, respectively
812 /etc/games is no good at canasta line 123.
813 /etc/games is no good, stopped at canasta line 123.
815 See also exit() and warn().
817 If LIST is empty and $@ already contains a value (typically from a
818 previous eval) that value is reused after appending "\t...propagated".
819 This is useful for propagating exceptions:
822 die unless $@ =~ /Expected exception/;
824 If $@ is empty then the string "Died" is used.
826 You can arrange for a callback to be called just before the die() does
827 its deed, by setting the C<$SIG{__DIE__}> hook. The associated handler
828 will be called with the error text and can change the error message, if
829 it sees fit, by calling die() again. See L<perlvar/$SIG{expr}> for details on
830 setting C<%SIG> entries, and L<"eval BLOCK"> for some examples.
832 Note that the C<$SIG{__DIE__}> hook is called even inside eval()ed
833 blocks/strings. If one wants the hook to do nothing in such
838 as the first line of the handler (see L<perlvar/$^S>).
842 Not really a function. Returns the value of the last command in the
843 sequence of commands indicated by BLOCK. When modified by a loop
844 modifier, executes the BLOCK once before testing the loop condition.
845 (On other statements the loop modifiers test the conditional first.)
847 =item do SUBROUTINE(LIST)
849 A deprecated form of subroutine call. See L<perlsub>.
853 Uses the value of EXPR as a filename and executes the contents of the
854 file as a Perl script. Its primary use is to include subroutines
855 from a Perl subroutine library.
861 scalar eval `cat stat.pl`;
863 except that it's more efficient, more concise, keeps track of the
864 current filename for error messages, and searches all the B<-I>
865 libraries if the file isn't in the current directory (see also the @INC
866 array in L<perlvar/Predefined Names>). It is also different in how
867 code evaluated with C<do FILENAME> doesn't see lexicals in the enclosing
868 scope like C<eval STRING> does. It's the same, however, in that it does
869 reparse the file every time you call it, so you probably don't want to
870 do this inside a loop.
872 Note that inclusion of library modules is better done with the
873 use() and require() operators, which also do error checking
874 and raise an exception if there's a problem.
878 This causes an immediate core dump. Primarily this is so that you can
879 use the B<undump> program to turn your core dump into an executable binary
880 after having initialized all your variables at the beginning of the
881 program. When the new binary is executed it will begin by executing a
882 C<goto LABEL> (with all the restrictions that C<goto> suffers). Think of
883 it as a goto with an intervening core dump and reincarnation. If LABEL
884 is omitted, restarts the program from the top. WARNING: any files
885 opened at the time of the dump will NOT be open any more when the
886 program is reincarnated, with possible resulting confusion on the part
887 of Perl. See also B<-u> option in L<perlrun>.
904 dump QUICKSTART if $ARGV[0] eq '-d';
911 When called in a list context, returns a 2-element array consisting of the
912 key and value for the next element of a hash, so that you can iterate over
913 it. When called in a scalar context, returns the key for only the next
914 element in the hash. (Note: Keys may be "0" or "", which are logically
915 false; you may wish to avoid constructs like C<while ($k = each %foo) {}>
918 Entries are returned in an apparently random order. When the hash is
919 entirely read, a null array is returned in list context (which when
920 assigned produces a FALSE (0) value), and C<undef> is returned in a
921 scalar context. The next call to each() after that will start iterating
922 again. There is a single iterator for each hash, shared by all each(),
923 keys(), and values() function calls in the program; it can be reset by
924 reading all the elements from the hash, or by evaluating C<keys HASH> or
925 C<values HASH>. If you add or delete elements of a hash while you're
926 iterating over it, you may get entries skipped or duplicated, so don't.
928 The following prints out your environment like the printenv(1) program,
929 only in a different order:
931 while (($key,$value) = each %ENV) {
932 print "$key=$value\n";
935 See also keys() and values().
943 Returns 1 if the next read on FILEHANDLE will return end of file, or if
944 FILEHANDLE is not open. FILEHANDLE may be an expression whose value
945 gives the real filehandle name. (Note that this function actually
946 reads a character and then ungetc()s it, so it is not very useful in an
947 interactive context.) Do not read from a terminal file (or call
948 C<eof(FILEHANDLE)> on it) after end-of-file is reached. Filetypes such
949 as terminals may lose the end-of-file condition if you do.
951 An C<eof> without an argument uses the last file read as argument.
952 Empty parentheses () may be used to indicate the pseudo file formed of
953 the files listed on the command line, i.e., C<eof()> is reasonable to
954 use inside a C<while (E<lt>E<gt>)> loop to detect the end of only the
955 last file. Use C<eof(ARGV)> or eof without the parentheses to test
956 I<EACH> file in a while (E<lt>E<gt>) loop. Examples:
958 # reset line numbering on each input file
961 close(ARGV) if (eof); # Not eof().
964 # insert dashes just before last line of last file
967 print "--------------\n";
968 close(ARGV); # close or break; is needed if we
969 # are reading from the terminal
974 Practical hint: you almost never need to use C<eof> in Perl, because the
975 input operators return undef when they run out of data.
981 In the first form, the return value of EXPR is parsed and executed as if it
982 were a little Perl program. The value of the expression (which is itself
983 determined within a scalar context) is first parsed, and if there are no
984 errors, executed in the context of the current Perl program, so that any
985 variable settings or subroutine and format definitions remain afterwards.
986 Note that the value is parsed every time the eval executes. If EXPR is
987 omitted, evaluates C<$_>. This form is typically used to delay parsing
988 and subsequent execution of the text of EXPR until run time.
990 In the second form, the code within the BLOCK is parsed only once--at the
991 same time the code surrounding the eval itself was parsed--and executed
992 within the context of the current Perl program. This form is typically
993 used to trap exceptions more efficiently than the first (see below), while
994 also providing the benefit of checking the code within BLOCK at compile
997 The final semicolon, if any, may be omitted from the value of EXPR or within
1000 In both forms, the value returned is the value of the last expression
1001 evaluated inside the mini-program, or a return statement may be used, just
1002 as with subroutines. The expression providing the return value is evaluated
1003 in void, scalar or array context, depending on the context of the eval itself.
1004 See L</wantarray> for more on how the evaluation context can be determined.
1006 If there is a syntax error or runtime error, or a die() statement is
1007 executed, an undefined value is returned by eval(), and C<$@> is set to the
1008 error message. If there was no error, C<$@> is guaranteed to be a null
1009 string. Beware that using eval() neither silences perl from printing
1010 warnings to STDERR, nor does it stuff the text of warning messages into C<$@>.
1011 To do either of those, you have to use the C<$SIG{__WARN__}> facility. See
1012 L</warn> and L<perlvar>.
1014 Note that, because eval() traps otherwise-fatal errors, it is useful for
1015 determining whether a particular feature (such as socket() or symlink())
1016 is implemented. It is also Perl's exception trapping mechanism, where
1017 the die operator is used to raise exceptions.
1019 If the code to be executed doesn't vary, you may use the eval-BLOCK
1020 form to trap run-time errors without incurring the penalty of
1021 recompiling each time. The error, if any, is still returned in C<$@>.
1024 # make divide-by-zero nonfatal
1025 eval { $answer = $a / $b; }; warn $@ if $@;
1027 # same thing, but less efficient
1028 eval '$answer = $a / $b'; warn $@ if $@;
1030 # a compile-time error
1034 eval '$answer ='; # sets $@
1036 When using the eval{} form as an exception trap in libraries, you may
1037 wish not to trigger any C<__DIE__> hooks that user code may have
1038 installed. You can use the C<local $SIG{__DIE__}> construct for this
1039 purpose, as shown in this example:
1041 # a very private exception trap for divide-by-zero
1042 eval { local $SIG{'__DIE__'}; $answer = $a / $b; }; warn $@ if $@;
1044 This is especially significant, given that C<__DIE__> hooks can call
1045 die() again, which has the effect of changing their error messages:
1047 # __DIE__ hooks may modify error messages
1049 local $SIG{'__DIE__'} = sub { (my $x = $_[0]) =~ s/foo/bar/g; die $x };
1050 eval { die "foo lives here" };
1051 print $@ if $@; # prints "bar lives here"
1054 With an eval(), you should be especially careful to remember what's
1055 being looked at when:
1061 eval { $x }; # CASE 4
1063 eval "\$$x++" # CASE 5
1066 Cases 1 and 2 above behave identically: they run the code contained in
1067 the variable $x. (Although case 2 has misleading double quotes making
1068 the reader wonder what else might be happening (nothing is).) Cases 3
1069 and 4 likewise behave in the same way: they run the code '$x', which
1070 does nothing but return the value of C<$x>. (Case 4 is preferred for
1071 purely visual reasons, but it also has the advantage of compiling at
1072 compile-time instead of at run-time.) Case 5 is a place where
1073 normally you I<WOULD> like to use double quotes, except that in this
1074 particular situation, you can just use symbolic references instead, as
1079 The exec() function executes a system command I<AND NEVER RETURNS> -
1080 use system() instead of exec() if you want it to return. It fails and
1081 returns FALSE only if the command does not exist I<and> it is executed
1082 directly instead of via your system's command shell (see below).
1084 If there is more than one argument in LIST, or if LIST is an array with
1085 more than one value, calls execvp(3) with the arguments in LIST. If
1086 there is only one scalar argument, the argument is checked for shell
1087 metacharacters, and if there are any, the entire argument is passed to
1088 the system's command shell for parsing (this is C</bin/sh -c> on Unix
1089 platforms, but varies on other platforms). If there are no shell
1090 metacharacters in the argument, it is split into words and passed
1091 directly to execvp(), which is more efficient. Note: exec() and
1092 system() do not flush your output buffer, so you may need to set C<$|>
1093 to avoid lost output. Examples:
1095 exec '/bin/echo', 'Your arguments are: ', @ARGV;
1096 exec "sort $outfile | uniq";
1098 If you don't really want to execute the first argument, but want to lie
1099 to the program you are executing about its own name, you can specify
1100 the program you actually want to run as an "indirect object" (without a
1101 comma) in front of the LIST. (This always forces interpretation of the
1102 LIST as a multivalued list, even if there is only a single scalar in
1105 $shell = '/bin/csh';
1106 exec $shell '-sh'; # pretend it's a login shell
1110 exec {'/bin/csh'} '-sh'; # pretend it's a login shell
1112 When the arguments get executed via the system shell, results will
1113 be subject to its quirks and capabilities. See L<perlop/"`STRING`">
1118 Returns TRUE if the specified hash key exists in its hash array, even
1119 if the corresponding value is undefined.
1121 print "Exists\n" if exists $array{$key};
1122 print "Defined\n" if defined $array{$key};
1123 print "True\n" if $array{$key};
1125 A hash element can be TRUE only if it's defined, and defined if
1126 it exists, but the reverse doesn't necessarily hold true.
1128 Note that the EXPR can be arbitrarily complicated as long as the final
1129 operation is a hash key lookup:
1131 if (exists $ref->[$x][$y]{$key}) { ... }
1135 Evaluates EXPR and exits immediately with that value. (Actually, it
1136 calls any defined C<END> routines first, but the C<END> routines may not
1137 abort the exit. Likewise any object destructors that need to be called
1138 are called before exit.) Example:
1141 exit 0 if $ans =~ /^[Xx]/;
1143 See also die(). If EXPR is omitted, exits with 0 status. The only
1144 universally portable values for EXPR are 0 for success and 1 for error;
1145 all other values are subject to unpredictable interpretation depending
1146 on the environment in which the Perl program is running.
1148 You shouldn't use exit() to abort a subroutine if there's any chance that
1149 someone might want to trap whatever error happened. Use die() instead,
1150 which can be trapped by an eval().
1156 Returns I<e> (the natural logarithm base) to the power of EXPR.
1157 If EXPR is omitted, gives C<exp($_)>.
1159 =item fcntl FILEHANDLE,FUNCTION,SCALAR
1161 Implements the fcntl(2) function. You'll probably have to say
1165 first to get the correct function definitions. Argument processing and
1166 value return works just like ioctl() below. Note that fcntl() will produce
1167 a fatal error if used on a machine that doesn't implement fcntl(2).
1171 fcntl($filehandle, F_GETLK, $packed_return_buffer);
1173 =item fileno FILEHANDLE
1175 Returns the file descriptor for a filehandle. This is useful for
1176 constructing bitmaps for select(). If FILEHANDLE is an expression, the
1177 value is taken as the name of the filehandle.
1179 =item flock FILEHANDLE,OPERATION
1181 Calls flock(2), or an emulation of it, on FILEHANDLE. Returns TRUE for
1182 success, FALSE on failure. Produces a fatal error if used on a machine
1183 that doesn't implement flock(2), fcntl(2) locking, or lockf(3). flock()
1184 is Perl's portable file locking interface, although it locks only entire
1187 OPERATION is one of LOCK_SH, LOCK_EX, or LOCK_UN, possibly combined with
1188 LOCK_NB. These constants are traditionally valued 1, 2, 8 and 4, but
1189 you can use the symbolic names if import them from the Fcntl module,
1190 either individually, or as a group using the ':flock' tag. LOCK_SH
1191 requests a shared lock, LOCK_EX requests an exclusive lock, and LOCK_UN
1192 releases a previously requested lock. If LOCK_NB is added to LOCK_SH or
1193 LOCK_EX then flock() will return immediately rather than blocking
1194 waiting for the lock (check the return status to see if you got it).
1196 To avoid the possibility of mis-coordination, Perl flushes FILEHANDLE
1197 before (un)locking it.
1199 Note that the emulation built with lockf(3) doesn't provide shared
1200 locks, and it requires that FILEHANDLE be open with write intent. These
1201 are the semantics that lockf(3) implements. Most (all?) systems
1202 implement lockf(3) in terms of fcntl(2) locking, though, so the
1203 differing semantics shouldn't bite too many people.
1205 Note also that some versions of flock() cannot lock things over the
1206 network; you would need to use the more system-specific fcntl() for
1207 that. If you like you can force Perl to ignore your system's flock(2)
1208 function, and so provide its own fcntl(2)-based emulation, by passing
1209 the switch C<-Ud_flock> to the F<Configure> program when you configure
1212 Here's a mailbox appender for BSD systems.
1214 use Fcntl ':flock'; # import LOCK_* constants
1217 flock(MBOX,LOCK_EX);
1218 # and, in case someone appended
1219 # while we were waiting...
1224 flock(MBOX,LOCK_UN);
1227 open(MBOX, ">>/usr/spool/mail/$ENV{'USER'}")
1228 or die "Can't open mailbox: $!";
1231 print MBOX $msg,"\n\n";
1234 See also L<DB_File> for other flock() examples.
1238 Does a fork(2) system call. Returns the child pid to the parent process
1239 and 0 to the child process, or C<undef> if the fork is unsuccessful.
1240 Note: unflushed buffers remain unflushed in both processes, which means
1241 you may need to set C<$|> ($AUTOFLUSH in English) or call the autoflush()
1242 method of IO::Handle to avoid duplicate output.
1244 If you fork() without ever waiting on your children, you will accumulate
1247 $SIG{CHLD} = sub { wait };
1249 There's also the double-fork trick (error checking on
1250 fork() returns omitted);
1252 unless ($pid = fork) {
1254 exec "what you really wanna do";
1257 ## (some_perl_code_here)
1264 See also L<perlipc> for more examples of forking and reaping
1267 Note that if your forked child inherits system file descriptors like
1268 STDIN and STDOUT that are actually connected by a pipe or socket, even
1269 if you exit, the remote server (such as, say, httpd or rsh) won't think
1270 you're done. You should reopen those to /dev/null if it's any issue.
1274 Declare a picture format with use by the write() function. For
1278 Test: @<<<<<<<< @||||| @>>>>>
1279 $str, $%, '$' . int($num)
1283 $num = $cost/$quantity;
1287 See L<perlform> for many details and examples.
1290 =item formline PICTURE,LIST
1292 This is an internal function used by C<format>s, though you may call it
1293 too. It formats (see L<perlform>) a list of values according to the
1294 contents of PICTURE, placing the output into the format output
1295 accumulator, C<$^A> (or $ACCUMULATOR in English).
1296 Eventually, when a write() is done, the contents of
1297 C<$^A> are written to some filehandle, but you could also read C<$^A>
1298 yourself and then set C<$^A> back to "". Note that a format typically
1299 does one formline() per line of form, but the formline() function itself
1300 doesn't care how many newlines are embedded in the PICTURE. This means
1301 that the C<~> and C<~~> tokens will treat the entire PICTURE as a single line.
1302 You may therefore need to use multiple formlines to implement a single
1303 record format, just like the format compiler.
1305 Be careful if you put double quotes around the picture, because an "C<@>"
1306 character may be taken to mean the beginning of an array name.
1307 formline() always returns TRUE. See L<perlform> for other examples.
1309 =item getc FILEHANDLE
1313 Returns the next character from the input file attached to FILEHANDLE,
1314 or a null string at end of file. If FILEHANDLE is omitted, reads from STDIN.
1315 This is not particularly efficient. It cannot be used to get unbuffered
1316 single-characters, however. For that, try something more like:
1319 system "stty cbreak </dev/tty >/dev/tty 2>&1";
1322 system "stty", '-icanon', 'eol', "\001";
1328 system "stty -cbreak </dev/tty >/dev/tty 2>&1";
1331 system "stty", 'icanon', 'eol', '^@'; # ASCII null
1335 Determination of whether $BSD_STYLE should be set
1336 is left as an exercise to the reader.
1338 The POSIX::getattr() function can do this more portably on systems
1339 alleging POSIX compliance.
1340 See also the C<Term::ReadKey> module from your nearest CPAN site;
1341 details on CPAN can be found on L<perlmod/CPAN>.
1345 Returns the current login from F</etc/utmp>, if any. If null, use
1348 $login = getlogin || getpwuid($<) || "Kilroy";
1350 Do not consider getlogin() for authentication: it is not as
1351 secure as getpwuid().
1353 =item getpeername SOCKET
1355 Returns the packed sockaddr address of other end of the SOCKET connection.
1358 $hersockaddr = getpeername(SOCK);
1359 ($port, $iaddr) = unpack_sockaddr_in($hersockaddr);
1360 $herhostname = gethostbyaddr($iaddr, AF_INET);
1361 $herstraddr = inet_ntoa($iaddr);
1365 Returns the current process group for the specified PID. Use
1366 a PID of 0 to get the current process group for the
1367 current process. Will raise an exception if used on a machine that
1368 doesn't implement getpgrp(2). If PID is omitted, returns process
1369 group of current process. Note that the POSIX version of getpgrp()
1370 does not accept a PID argument, so only PID==0 is truly portable.
1374 Returns the process id of the parent process.
1376 =item getpriority WHICH,WHO
1378 Returns the current priority for a process, a process group, or a user.
1379 (See L<getpriority(2)>.) Will raise a fatal exception if used on a
1380 machine that doesn't implement getpriority(2).
1386 =item gethostbyname NAME
1388 =item getnetbyname NAME
1390 =item getprotobyname NAME
1396 =item getservbyname NAME,PROTO
1398 =item gethostbyaddr ADDR,ADDRTYPE
1400 =item getnetbyaddr ADDR,ADDRTYPE
1402 =item getprotobynumber NUMBER
1404 =item getservbyport PORT,PROTO
1422 =item sethostent STAYOPEN
1424 =item setnetent STAYOPEN
1426 =item setprotoent STAYOPEN
1428 =item setservent STAYOPEN
1442 These routines perform the same functions as their counterparts in the
1443 system library. Within a list context, the return values from the
1444 various get routines are as follows:
1446 ($name,$passwd,$uid,$gid,
1447 $quota,$comment,$gcos,$dir,$shell) = getpw*
1448 ($name,$passwd,$gid,$members) = getgr*
1449 ($name,$aliases,$addrtype,$length,@addrs) = gethost*
1450 ($name,$aliases,$addrtype,$net) = getnet*
1451 ($name,$aliases,$proto) = getproto*
1452 ($name,$aliases,$port,$proto) = getserv*
1454 (If the entry doesn't exist you get a null list.)
1456 Within a scalar context, you get the name, unless the function was a
1457 lookup by name, in which case you get the other thing, whatever it is.
1458 (If the entry doesn't exist you get the undefined value.) For example:
1468 The $members value returned by I<getgr*()> is a space separated list of
1469 the login names of the members of the group.
1471 For the I<gethost*()> functions, if the C<h_errno> variable is supported in
1472 C, it will be returned to you via C<$?> if the function call fails. The
1473 @addrs value returned by a successful call is a list of the raw
1474 addresses returned by the corresponding system library call. In the
1475 Internet domain, each address is four bytes long and you can unpack it
1476 by saying something like:
1478 ($a,$b,$c,$d) = unpack('C4',$addr[0]);
1480 =item getsockname SOCKET
1482 Returns the packed sockaddr address of this end of the SOCKET connection.
1485 $mysockaddr = getsockname(SOCK);
1486 ($port, $myaddr) = unpack_sockaddr_in($mysockaddr);
1488 =item getsockopt SOCKET,LEVEL,OPTNAME
1490 Returns the socket option requested, or undefined if there is an error.
1496 Returns the value of EXPR with filename expansions such as a shell would
1497 do. This is the internal function implementing the C<E<lt>*.cE<gt>>
1498 operator, but you can use it directly. If EXPR is omitted, $_ is used.
1499 The C<E<lt>*.cE<gt>> operator is discussed in more detail in
1500 L<perlop/"I/O Operators">.
1504 Converts a time as returned by the time function to a 9-element array
1505 with the time localized for the standard Greenwich time zone.
1506 Typically used as follows:
1509 ($sec,$min,$hour,$mday,$mon,$year,$wday,$yday,$isdst) =
1512 All array elements are numeric, and come straight out of a struct tm.
1513 In particular this means that $mon has the range 0..11 and $wday has
1514 the range 0..6 with sunday as day 0. Also, $year is the number of
1515 years since 1900, I<not> simply the last two digits of the year.
1517 If EXPR is omitted, does C<gmtime(time())>.
1519 In a scalar context, returns the ctime(3) value:
1521 $now_string = gmtime; # e.g., "Thu Oct 13 04:54:34 1994"
1523 Also see the timegm() function provided by the Time::Local module,
1524 and the strftime(3) function available via the POSIX module.
1532 The goto-LABEL form finds the statement labeled with LABEL and resumes
1533 execution there. It may not be used to go into any construct that
1534 requires initialization, such as a subroutine or a foreach loop. It
1535 also can't be used to go into a construct that is optimized away,
1536 or to get out of a block or subroutine given to sort().
1537 It can be used to go almost anywhere else within the dynamic scope,
1538 including out of subroutines, but it's usually better to use some other
1539 construct such as last or die. The author of Perl has never felt the
1540 need to use this form of goto (in Perl, that is--C is another matter).
1542 The goto-EXPR form expects a label name, whose scope will be resolved
1543 dynamically. This allows for computed gotos per FORTRAN, but isn't
1544 necessarily recommended if you're optimizing for maintainability:
1546 goto ("FOO", "BAR", "GLARCH")[$i];
1548 The goto-&NAME form is highly magical, and substitutes a call to the
1549 named subroutine for the currently running subroutine. This is used by
1550 AUTOLOAD subroutines that wish to load another subroutine and then
1551 pretend that the other subroutine had been called in the first place
1552 (except that any modifications to @_ in the current subroutine are
1553 propagated to the other subroutine.) After the goto, not even caller()
1554 will be able to tell that this routine was called first.
1556 =item grep BLOCK LIST
1558 =item grep EXPR,LIST
1560 This is similar in spirit to, but not the same as, grep(1)
1561 and its relatives. In particular, it is not limited to using
1562 regular expressions.
1564 Evaluates the BLOCK or EXPR for each element of LIST (locally setting
1565 $_ to each element) and returns the list value consisting of those
1566 elements for which the expression evaluated to TRUE. In a scalar
1567 context, returns the number of times the expression was TRUE.
1569 @foo = grep(!/^#/, @bar); # weed out comments
1573 @foo = grep {!/^#/} @bar; # weed out comments
1575 Note that, because $_ is a reference into the list value, it can be used
1576 to modify the elements of the array. While this is useful and
1577 supported, it can cause bizarre results if the LIST is not a named
1578 array. Similarly, grep returns aliases into the original list,
1579 much like the way that L<Foreach Loops>'s index variable aliases the list
1580 elements. That is, modifying an element of a list returned by grep
1581 (for example, in a C<foreach>, C<map> or another C<grep>)
1582 actually modifies the element in the original list.
1584 See also L</map> for an array composed of the results of the BLOCK or EXPR.
1590 Interprets EXPR as a hex string and returns the corresponding
1591 value. (To convert strings that might start with either 0 or 0x
1592 see L</oct>.) If EXPR is omitted, uses $_.
1594 print hex '0xAf'; # prints '175'
1595 print hex 'aF'; # same
1599 There is no builtin import() function. It is merely an ordinary
1600 method (subroutine) defined (or inherited) by modules that wish to export
1601 names to another module. The use() function calls the import() method
1602 for the package used. See also L</use()>, L<perlmod>, and L<Exporter>.
1604 =item index STR,SUBSTR,POSITION
1606 =item index STR,SUBSTR
1608 Returns the position of the first occurrence of SUBSTR in STR at or after
1609 POSITION. If POSITION is omitted, starts searching from the beginning of
1610 the string. The return value is based at 0 (or whatever you've set the C<$[>
1611 variable to--but don't do that). If the substring is not found, returns
1612 one less than the base, ordinarily -1.
1618 Returns the integer portion of EXPR. If EXPR is omitted, uses $_.
1620 =item ioctl FILEHANDLE,FUNCTION,SCALAR
1622 Implements the ioctl(2) function. You'll probably have to say
1624 require "ioctl.ph"; # probably in /usr/local/lib/perl/ioctl.ph
1626 first to get the correct function definitions. If F<ioctl.ph> doesn't
1627 exist or doesn't have the correct definitions you'll have to roll your
1628 own, based on your C header files such as F<E<lt>sys/ioctl.hE<gt>>.
1629 (There is a Perl script called B<h2ph> that comes with the Perl kit which
1630 may help you in this, but it's nontrivial.) SCALAR will be read and/or
1631 written depending on the FUNCTION--a pointer to the string value of SCALAR
1632 will be passed as the third argument of the actual ioctl call. (If SCALAR
1633 has no string value but does have a numeric value, that value will be
1634 passed rather than a pointer to the string value. To guarantee this to be
1635 TRUE, add a 0 to the scalar before using it.) The pack() and unpack()
1636 functions are useful for manipulating the values of structures used by
1637 ioctl(). The following example sets the erase character to DEL.
1641 die "NO TIOCGETP" if $@ || !$getp;
1642 $sgttyb_t = "ccccs"; # 4 chars and a short
1643 if (ioctl(STDIN,$getp,$sgttyb)) {
1644 @ary = unpack($sgttyb_t,$sgttyb);
1646 $sgttyb = pack($sgttyb_t,@ary);
1647 ioctl(STDIN,&TIOCSETP,$sgttyb)
1648 || die "Can't ioctl: $!";
1651 The return value of ioctl (and fcntl) is as follows:
1653 if OS returns: then Perl returns:
1655 0 string "0 but true"
1656 anything else that number
1658 Thus Perl returns TRUE on success and FALSE on failure, yet you can
1659 still easily determine the actual value returned by the operating
1662 ($retval = ioctl(...)) || ($retval = -1);
1663 printf "System returned %d\n", $retval;
1665 =item join EXPR,LIST
1667 Joins the separate strings of LIST into a single string with
1668 fields separated by the value of EXPR, and returns the string.
1671 $_ = join(':', $login,$passwd,$uid,$gid,$gcos,$home,$shell);
1673 See L<perlfunc/split>.
1677 Returns a normal array consisting of all the keys of the named hash. (In
1678 a scalar context, returns the number of keys.) The keys are returned in
1679 an apparently random order, but it is the same order as either the
1680 values() or each() function produces (given that the hash has not been
1681 modified). As a side effect, it resets HASH's iterator.
1683 Here is yet another way to print your environment:
1686 @values = values %ENV;
1687 while ($#keys >= 0) {
1688 print pop(@keys), '=', pop(@values), "\n";
1691 or how about sorted by key:
1693 foreach $key (sort(keys %ENV)) {
1694 print $key, '=', $ENV{$key}, "\n";
1697 To sort an array by value, you'll need to use a C<sort> function.
1698 Here's a descending numeric sort of a hash by its values:
1700 foreach $key (sort { $hash{$b} <=> $hash{$a} } keys %hash)) {
1701 printf "%4d %s\n", $hash{$key}, $key;
1704 As an lvalue C<keys> allows you to increase the number of hash buckets
1705 allocated for the given hash. This can gain you a measure of efficiency if
1706 you know the hash is going to get big. (This is similar to pre-extending
1707 an array by assigning a larger number to $#array.) If you say
1711 then C<%hash> will have at least 200 buckets allocated for it. These
1712 buckets will be retained even if you do C<%hash = ()>, use C<undef
1713 %hash> if you want to free the storage while C<%hash> is still in scope.
1714 You can't shrink the number of buckets allocated for the hash using
1715 C<keys> in this way (but you needn't worry about doing this by accident,
1716 as trying has no effect).
1720 Sends a signal to a list of processes. The first element of
1721 the list must be the signal to send. Returns the number of
1722 processes successfully signaled.
1724 $cnt = kill 1, $child1, $child2;
1727 Unlike in the shell, in Perl if the I<SIGNAL> is negative, it kills
1728 process groups instead of processes. (On System V, a negative I<PROCESS>
1729 number will also kill process groups, but that's not portable.) That
1730 means you usually want to use positive not negative signals. You may also
1731 use a signal name in quotes. See L<perlipc/"Signals"> for details.
1737 The C<last> command is like the C<break> statement in C (as used in
1738 loops); it immediately exits the loop in question. If the LABEL is
1739 omitted, the command refers to the innermost enclosing loop. The
1740 C<continue> block, if any, is not executed:
1742 LINE: while (<STDIN>) {
1743 last LINE if /^$/; # exit when done with header
1751 Returns an lowercased version of EXPR. This is the internal function
1752 implementing the \L escape in double-quoted strings.
1753 Respects current LC_CTYPE locale if C<use locale> in force. See L<perllocale>.
1755 If EXPR is omitted, uses $_.
1761 Returns the value of EXPR with the first character lowercased. This is
1762 the internal function implementing the \l escape in double-quoted strings.
1763 Respects current LC_CTYPE locale if C<use locale> in force. See L<perllocale>.
1765 If EXPR is omitted, uses $_.
1771 Returns the length in characters of the value of EXPR. If EXPR is
1772 omitted, returns length of $_.
1774 =item link OLDFILE,NEWFILE
1776 Creates a new filename linked to the old filename. Returns 1 for
1777 success, 0 otherwise.
1779 =item listen SOCKET,QUEUESIZE
1781 Does the same thing that the listen system call does. Returns TRUE if
1782 it succeeded, FALSE otherwise. See example in L<perlipc/"Sockets: Client/Server Communication">.
1786 A local modifies the listed variables to be local to the enclosing block,
1787 subroutine, C<eval{}>, or C<do>. If more than one value is listed, the
1788 list must be placed in parentheses. See L<perlsub/"Temporary Values via
1789 local()"> for details, including issues with tied arrays and hashes.
1791 But you really probably want to be using my() instead, because local() isn't
1792 what most people think of as "local"). See L<perlsub/"Private Variables
1793 via my()"> for details.
1795 =item localtime EXPR
1797 Converts a time as returned by the time function to a 9-element array
1798 with the time analyzed for the local time zone. Typically used as
1802 ($sec,$min,$hour,$mday,$mon,$year,$wday,$yday,$isdst) =
1805 All array elements are numeric, and come straight out of a struct tm.
1806 In particular this means that $mon has the range 0..11 and $wday has
1807 the range 0..6 with sunday as day 0. Also, $year is the number of
1808 years since 1900, that is, $year is 123 in year 2023.
1810 If EXPR is omitted, uses the current time (C<localtime(time)>).
1812 In a scalar context, returns the ctime(3) value:
1814 $now_string = localtime; # e.g., "Thu Oct 13 04:54:34 1994"
1816 This scalar value is B<not> locale dependent, see L<perllocale>,
1817 but instead a Perl builtin.
1818 Also see the Time::Local module, and the strftime(3) and mktime(3)
1819 function available via the POSIX module.
1825 Returns logarithm (base I<e>) of EXPR. If EXPR is omitted, returns log
1828 =item lstat FILEHANDLE
1834 Does the same thing as the stat() function, but stats a symbolic link
1835 instead of the file the symbolic link points to. If symbolic links are
1836 unimplemented on your system, a normal stat() is done.
1838 If EXPR is omitted, stats $_.
1842 The match operator. See L<perlop>.
1844 =item map BLOCK LIST
1848 Evaluates the BLOCK or EXPR for each element of LIST (locally setting $_ to each
1849 element) and returns the list value composed of the results of each such
1850 evaluation. Evaluates BLOCK or EXPR in a list context, so each element of LIST
1851 may produce zero, one, or more elements in the returned value.
1853 @chars = map(chr, @nums);
1855 translates a list of numbers to the corresponding characters. And
1857 %hash = map { getkey($_) => $_ } @array;
1859 is just a funny way to write
1862 foreach $_ (@array) {
1863 $hash{getkey($_)} = $_;
1866 Note that, because $_ is a reference into the list value, it can be used
1867 to modify the elements of the array. While this is useful and
1868 supported, it can cause bizarre results if the LIST is not a named
1869 array. See also L</grep> for an array composed of those items of the
1870 original list for which the BLOCK or EXPR evaluates to true.
1872 =item mkdir FILENAME,MODE
1874 Creates the directory specified by FILENAME, with permissions specified
1875 by MODE (as modified by umask). If it succeeds it returns 1, otherwise
1876 it returns 0 and sets C<$!> (errno).
1878 =item msgctl ID,CMD,ARG
1880 Calls the System V IPC function msgctl(2). If CMD is &IPC_STAT, then ARG
1881 must be a variable which will hold the returned msqid_ds structure.
1882 Returns like ioctl: the undefined value for error, "0 but true" for
1883 zero, or the actual return value otherwise.
1885 =item msgget KEY,FLAGS
1887 Calls the System V IPC function msgget(2). Returns the message queue id,
1888 or the undefined value if there is an error.
1890 =item msgsnd ID,MSG,FLAGS
1892 Calls the System V IPC function msgsnd to send the message MSG to the
1893 message queue ID. MSG must begin with the long integer message type,
1894 which may be created with C<pack("l", $type)>. Returns TRUE if
1895 successful, or FALSE if there is an error.
1897 =item msgrcv ID,VAR,SIZE,TYPE,FLAGS
1899 Calls the System V IPC function msgrcv to receive a message from
1900 message queue ID into variable VAR with a maximum message size of
1901 SIZE. Note that if a message is received, the message type will be the
1902 first thing in VAR, and the maximum length of VAR is SIZE plus the size
1903 of the message type. Returns TRUE if successful, or FALSE if there is
1908 A "my" declares the listed variables to be local (lexically) to the
1909 enclosing block, subroutine, C<eval>, or C<do/require/use>'d file. If
1910 more than one value is listed, the list must be placed in parentheses. See
1911 L<perlsub/"Private Variables via my()"> for details.
1917 The C<next> command is like the C<continue> statement in C; it starts
1918 the next iteration of the loop:
1920 LINE: while (<STDIN>) {
1921 next LINE if /^#/; # discard comments
1925 Note that if there were a C<continue> block on the above, it would get
1926 executed even on discarded lines. If the LABEL is omitted, the command
1927 refers to the innermost enclosing loop.
1929 =item no Module LIST
1931 See the "use" function, which "no" is the opposite of.
1937 Interprets EXPR as an octal string and returns the corresponding
1938 value. (If EXPR happens to start off with 0x, interprets it as
1939 a hex string instead.) The following will handle decimal, octal, and
1940 hex in the standard Perl or C notation:
1942 $val = oct($val) if $val =~ /^0/;
1944 If EXPR is omitted, uses $_. This function is commonly used when
1945 a string such as "644" needs to be converted into a file mode, for
1946 example. (Although perl will automatically convert strings into
1947 numbers as needed, this automatic conversion assumes base 10.)
1949 =item open FILEHANDLE,EXPR
1951 =item open FILEHANDLE
1953 Opens the file whose filename is given by EXPR, and associates it with
1954 FILEHANDLE. If FILEHANDLE is an expression, its value is used as the
1955 name of the real filehandle wanted. If EXPR is omitted, the scalar
1956 variable of the same name as the FILEHANDLE contains the filename.
1957 (Note that lexical variables--those declared with C<my>--will not work
1958 for this purpose; so if you're using C<my>, specify EXPR in your call
1961 If the filename begins with '<' or nothing, the file is opened for input.
1962 If the filename begins with '>', the file is truncated and opened for
1963 output. If the filename begins with '>>', the file is opened for
1964 appending. You can put a '+' in front of the '>' or '<' to indicate that
1965 you want both read and write access to the file; thus '+<' is almost
1966 always preferred for read/write updates--the '+>' mode would clobber the
1967 file first. The prefix and the filename may be separated with spaces.
1968 These various prefixes correspond to the fopen(3) modes of 'r', 'r+', 'w',
1969 'w+', 'a', and 'a+'.
1971 If the filename begins with "|", the filename is interpreted as a command
1972 to which output is to be piped, and if the filename ends with a "|", the
1973 filename is interpreted See L<perlipc/"Using open() for IPC"> for more
1974 examples of this. as command which pipes input to us. (You may not have
1975 a raw open() to a command that pipes both in I<and> out, but see
1976 L<IPC::Open2>, L<IPC::Open3>, and L<perlipc/"Bidirectional Communication">
1979 Opening '-' opens STDIN and opening 'E<gt>-' opens STDOUT. Open returns
1980 nonzero upon success, the undefined value otherwise. If the open
1981 involved a pipe, the return value happens to be the pid of the
1984 If you're unfortunate enough to be running Perl on a system that
1985 distinguishes between text files and binary files (modern operating
1986 systems don't care), then you should check out L</binmode> for tips for
1987 dealing with this. The key distinction between systems that need binmode
1988 and those that don't is their text file formats. Systems like Unix and
1989 Plan9 that delimit lines with a single character, and that encode that
1990 character in C as '\n', do not need C<binmode>. The rest need it.
1992 When opening a file, it's usually a bad idea to continue normal execution
1993 if the request failed, so C<open> is frequently used in connection with
1994 C<die>. Even if C<die> won't do what you want (say, in a CGI script,
1995 where you want to make a nicely formatted error message (but there are
1996 modules which can help with that problem)) you should always check
1997 the return value from opening a file. The infrequent exception is when
1998 working with an unopened filehandle is actually what you want to do.
2003 open ARTICLE or die "Can't find article $ARTICLE: $!\n";
2004 while (<ARTICLE>) {...
2006 open(LOG, '>>/usr/spool/news/twitlog'); # (log is reserved)
2007 # if the open fails, output is discarded
2009 open(DBASE, '+<dbase.mine') # open for update
2010 or die "Can't open 'dbase.mine' for update: $!";
2012 open(ARTICLE, "caesar <$article |") # decrypt article
2013 or die "Can't start caesar: $!";
2015 open(EXTRACT, "|sort >/tmp/Tmp$$") # $$ is our process id
2016 or die "Can't start sort: $!";
2018 # process argument list of files along with any includes
2020 foreach $file (@ARGV) {
2021 process($file, 'fh00');
2025 local($filename, $input) = @_;
2026 $input++; # this is a string increment
2027 unless (open($input, $filename)) {
2028 print STDERR "Can't open $filename: $!\n";
2032 while (<$input>) { # note use of indirection
2033 if (/^#include "(.*)"/) {
2034 process($1, $input);
2041 You may also, in the Bourne shell tradition, specify an EXPR beginning
2042 with "E<gt>&", in which case the rest of the string is interpreted as the
2043 name of a filehandle (or file descriptor, if numeric) which is to be
2044 duped and opened. You may use & after E<gt>, E<gt>E<gt>, E<lt>, +E<gt>,
2045 +E<gt>E<gt>, and +E<lt>. The
2046 mode you specify should match the mode of the original filehandle.
2047 (Duping a filehandle does not take into account any existing contents of
2049 Here is a script that saves, redirects, and restores STDOUT and
2053 open(SAVEOUT, ">&STDOUT");
2054 open(SAVEERR, ">&STDERR");
2056 open(STDOUT, ">foo.out") || die "Can't redirect stdout";
2057 open(STDERR, ">&STDOUT") || die "Can't dup stdout";
2059 select(STDERR); $| = 1; # make unbuffered
2060 select(STDOUT); $| = 1; # make unbuffered
2062 print STDOUT "stdout 1\n"; # this works for
2063 print STDERR "stderr 1\n"; # subprocesses too
2068 open(STDOUT, ">&SAVEOUT");
2069 open(STDERR, ">&SAVEERR");
2071 print STDOUT "stdout 2\n";
2072 print STDERR "stderr 2\n";
2075 If you specify "E<lt>&=N", where N is a number, then Perl will do an
2076 equivalent of C's fdopen() of that file descriptor; this is more
2077 parsimonious of file descriptors. For example:
2079 open(FILEHANDLE, "<&=$fd")
2081 If you open a pipe on the command "-", i.e., either "|-" or "-|", then
2082 there is an implicit fork done, and the return value of open is the pid
2083 of the child within the parent process, and 0 within the child
2084 process. (Use C<defined($pid)> to determine whether the open was successful.)
2085 The filehandle behaves normally for the parent, but i/o to that
2086 filehandle is piped from/to the STDOUT/STDIN of the child process.
2087 In the child process the filehandle isn't opened--i/o happens from/to
2088 the new STDOUT or STDIN. Typically this is used like the normal
2089 piped open when you want to exercise more control over just how the
2090 pipe command gets executed, such as when you are running setuid, and
2091 don't want to have to scan shell commands for metacharacters.
2092 The following pairs are more or less equivalent:
2094 open(FOO, "|tr '[a-z]' '[A-Z]'");
2095 open(FOO, "|-") || exec 'tr', '[a-z]', '[A-Z]';
2097 open(FOO, "cat -n '$file'|");
2098 open(FOO, "-|") || exec 'cat', '-n', $file;
2100 See L<perlipc/"Safe Pipe Opens"> for more examples of this.
2102 NOTE: On any operation which may do a fork, unflushed buffers remain
2103 unflushed in both processes, which means you may need to set C<$|> to
2104 avoid duplicate output.
2106 Closing any piped filehandle causes the parent process to wait for the
2107 child to finish, and returns the status value in C<$?>.
2109 Using the constructor from the IO::Handle package (or one of its
2110 subclasses, such as IO::File or IO::Socket),
2111 you can generate anonymous filehandles which have the scope of whatever
2112 variables hold references to them, and automatically close whenever
2113 and however you leave that scope:
2117 sub read_myfile_munged {
2119 my $handle = new IO::File;
2120 open($handle, "myfile") or die "myfile: $!";
2122 or return (); # Automatically closed here.
2123 mung $first or die "mung failed"; # Or here.
2124 return $first, <$handle> if $ALL; # Or here.
2128 The filename that is passed to open will have leading and trailing
2129 whitespace deleted. To open a file with arbitrary weird
2130 characters in it, it's necessary to protect any leading and trailing
2133 $file =~ s#^(\s)#./$1#;
2134 open(FOO, "< $file\0");
2136 If you want a "real" C open() (see L<open(2)> on your system), then
2137 you should use the sysopen() function. This is another way to
2138 protect your filenames from interpretation. For example:
2141 sysopen(HANDLE, $path, O_RDWR|O_CREAT|O_EXCL, 0700)
2142 or die "sysopen $path: $!";
2143 HANDLE->autoflush(1);
2144 HANDLE->print("stuff $$\n");
2146 print "File contains: ", <HANDLE>;
2148 See L</seek()> for some details about mixing reading and writing.
2150 =item opendir DIRHANDLE,EXPR
2152 Opens a directory named EXPR for processing by readdir(), telldir(),
2153 seekdir(), rewinddir(), and closedir(). Returns TRUE if successful.
2154 DIRHANDLEs have their own namespace separate from FILEHANDLEs.
2160 Returns the numeric ascii value of the first character of EXPR. If
2161 EXPR is omitted, uses $_. For the reverse, see L</chr>.
2163 =item pack TEMPLATE,LIST
2165 Takes an array or list of values and packs it into a binary structure,
2166 returning the string containing the structure. The TEMPLATE is a
2167 sequence of characters that give the order and type of values, as
2170 A An ascii string, will be space padded.
2171 a An ascii string, will be null padded.
2172 b A bit string (ascending bit order, like vec()).
2173 B A bit string (descending bit order).
2174 h A hex string (low nybble first).
2175 H A hex string (high nybble first).
2177 c A signed char value.
2178 C An unsigned char value.
2180 s A signed short value.
2181 S An unsigned short value.
2182 (This 'short' is _exactly_ 16 bits, which may differ from
2183 what a local C compiler calls 'short'.)
2185 i A signed integer value.
2186 I An unsigned integer value.
2187 (This 'integer' is _at_least_ 32 bits wide. Its exact size
2188 depends on what a local C compiler calls 'int', and may
2189 even be larger than the 'long' described in the next item.)
2191 l A signed long value.
2192 L An unsigned long value.
2193 (This 'long' is _exactly_ 32 bits, which may differ from
2194 what a local C compiler calls 'long'.)
2196 n A short in "network" (big-endian) order.
2197 N A long in "network" (big-endian) order.
2198 v A short in "VAX" (little-endian) order.
2199 V A long in "VAX" (little-endian) order.
2200 (These 'shorts' and 'longs' are _exactly_ 16 bits and
2201 _exactly_ 32 bits, respectively.)
2203 f A single-precision float in the native format.
2204 d A double-precision float in the native format.
2206 p A pointer to a null-terminated string.
2207 P A pointer to a structure (fixed-length string).
2209 u A uuencoded string.
2211 w A BER compressed integer. Its bytes represent an unsigned
2212 integer in base 128, most significant digit first, with as few
2213 digits as possible. Bit eight (the high bit) is set on each
2214 byte except the last.
2218 @ Null fill to absolute position.
2220 Each letter may optionally be followed by a number which gives a repeat
2221 count. With all types except "a", "A", "b", "B", "h", "H", and "P" the
2222 pack function will gobble up that many values from the LIST. A * for the
2223 repeat count means to use however many items are left. The "a" and "A"
2224 types gobble just one value, but pack it as a string of length count,
2225 padding with nulls or spaces as necessary. (When unpacking, "A" strips
2226 trailing spaces and nulls, but "a" does not.) Likewise, the "b" and "B"
2227 fields pack a string that many bits long. The "h" and "H" fields pack a
2228 string that many nybbles long. The "p" type packs a pointer to a null-
2229 terminated string. You are responsible for ensuring the string is not a
2230 temporary value (which can potentially get deallocated before you get
2231 around to using the packed result). The "P" packs a pointer to a structure
2232 of the size indicated by the length. A NULL pointer is created if the
2233 corresponding value for "p" or "P" is C<undef>.
2234 Real numbers (floats and doubles) are
2235 in the native machine format only; due to the multiplicity of floating
2236 formats around, and the lack of a standard "network" representation, no
2237 facility for interchange has been made. This means that packed floating
2238 point data written on one machine may not be readable on another - even if
2239 both use IEEE floating point arithmetic (as the endian-ness of the memory
2240 representation is not part of the IEEE spec). Note that Perl uses doubles
2241 internally for all numeric calculation, and converting from double into
2242 float and thence back to double again will lose precision (i.e.,
2243 C<unpack("f", pack("f", $foo)>) will not in general equal $foo).
2247 $foo = pack("cccc",65,66,67,68);
2249 $foo = pack("c4",65,66,67,68);
2252 $foo = pack("ccxxcc",65,66,67,68);
2255 $foo = pack("s2",1,2);
2256 # "\1\0\2\0" on little-endian
2257 # "\0\1\0\2" on big-endian
2259 $foo = pack("a4","abcd","x","y","z");
2262 $foo = pack("aaaa","abcd","x","y","z");
2265 $foo = pack("a14","abcdefg");
2266 # "abcdefg\0\0\0\0\0\0\0"
2268 $foo = pack("i9pl", gmtime);
2269 # a real struct tm (on my system anyway)
2272 unpack("N", pack("B32", substr("0" x 32 . shift, -32)));
2275 The same template may generally also be used in the unpack function.
2277 =item package NAMESPACE
2279 Declares the compilation unit as being in the given namespace. The scope
2280 of the package declaration is from the declaration itself through the end of
2281 the enclosing block (the same scope as the local() operator). All further
2282 unqualified dynamic identifiers will be in this namespace. A package
2283 statement affects only dynamic variables--including those you've used
2284 local() on--but I<not> lexical variables created with my(). Typically it
2285 would be the first declaration in a file to be included by the C<require>
2286 or C<use> operator. You can switch into a package in more than one place;
2287 it influences merely which symbol table is used by the compiler for the
2288 rest of that block. You can refer to variables and filehandles in other
2289 packages by prefixing the identifier with the package name and a double
2290 colon: C<$Package::Variable>. If the package name is null, the C<main>
2291 package as assumed. That is, C<$::sail> is equivalent to C<$main::sail>.
2293 See L<perlmod/"Packages"> for more information about packages, modules,
2294 and classes. See L<perlsub> for other scoping issues.
2296 =item pipe READHANDLE,WRITEHANDLE
2298 Opens a pair of connected pipes like the corresponding system call.
2299 Note that if you set up a loop of piped processes, deadlock can occur
2300 unless you are very careful. In addition, note that Perl's pipes use
2301 stdio buffering, so you may need to set C<$|> to flush your WRITEHANDLE
2302 after each command, depending on the application.
2304 See L<IPC::Open2>, L<IPC::Open3>, and L<perlipc/"Bidirectional Communication">
2305 for examples of such things.
2311 Pops and returns the last value of the array, shortening the array by
2312 1. Has a similar effect to
2314 $tmp = $ARRAY[$#ARRAY--];
2316 If there are no elements in the array, returns the undefined value.
2317 If ARRAY is omitted, pops the
2318 @ARGV array in the main program, and the @_ array in subroutines, just
2325 Returns the offset of where the last C<m//g> search left off for the variable
2326 is in question ($_ is used when the variable is not specified). May be
2327 modified to change that offset. Such modification will also influence
2328 the C<\G> zero-width assertion in regular expressions. See L<perlre> and
2331 =item print FILEHANDLE LIST
2337 Prints a string or a comma-separated list of strings. Returns TRUE
2338 if successful. FILEHANDLE may be a scalar variable name, in which case
2339 the variable contains the name of or a reference to the filehandle, thus introducing one
2340 level of indirection. (NOTE: If FILEHANDLE is a variable and the next
2341 token is a term, it may be misinterpreted as an operator unless you
2342 interpose a + or put parentheses around the arguments.) If FILEHANDLE is
2343 omitted, prints by default to standard output (or to the last selected
2344 output channel--see L</select>). If LIST is also omitted, prints $_ to
2345 STDOUT. To set the default output channel to something other than
2346 STDOUT use the select operation. Note that, because print takes a
2347 LIST, anything in the LIST is evaluated in a list context, and any
2348 subroutine that you call will have one or more of its expressions
2349 evaluated in a list context. Also be careful not to follow the print
2350 keyword with a left parenthesis unless you want the corresponding right
2351 parenthesis to terminate the arguments to the print--interpose a + or
2352 put parentheses around all the arguments.
2354 Note that if you're storing FILEHANDLES in an array or other expression,
2355 you will have to use a block returning its value instead:
2357 print { $files[$i] } "stuff\n";
2358 print { $OK ? STDOUT : STDERR } "stuff\n";
2360 =item printf FILEHANDLE FORMAT, LIST
2362 =item printf FORMAT, LIST
2364 Equivalent to C<print FILEHANDLE sprintf(FORMAT, LIST)>. The first argument
2365 of the list will be interpreted as the printf format. If C<use locale> is
2366 in effect, the character used for the decimal point in formatted real numbers
2367 is affected by the LC_NUMERIC locale. See L<perllocale>.
2369 Don't fall into the trap of using a printf() when a simple
2370 print() would do. The print() is more efficient, and less
2373 =item prototype FUNCTION
2375 Returns the prototype of a function as a string (or C<undef> if the
2376 function has no prototype). FUNCTION is a reference to, or the name of,
2377 the function whose prototype you want to retrieve.
2379 If FUNCTION is a string starting with C<CORE::>, the rest is taken as
2380 a name for Perl builtin. If builtin is not I<overridable> (such as
2381 C<qw>) or its arguments cannot be expressed by a prototype (such as
2382 C<system>) - in other words, the builtin does not behave like a Perl
2383 function - returns C<undef>. Otherwise, the string describing the
2384 equivalent prototype is returned.
2386 =item push ARRAY,LIST
2388 Treats ARRAY as a stack, and pushes the values of LIST
2389 onto the end of ARRAY. The length of ARRAY increases by the length of
2390 LIST. Has the same effect as
2393 $ARRAY[++$#ARRAY] = $value;
2396 but is more efficient. Returns the new number of elements in the array.
2406 Generalized quotes. See L<perlop>.
2408 =item quotemeta EXPR
2412 Returns the value of EXPR with all non-alphanumeric
2413 characters backslashed. (That is, all characters not matching
2414 C</[A-Za-z_0-9]/> will be preceded by a backslash in the
2415 returned string, regardless of any locale settings.)
2416 This is the internal function implementing
2417 the \Q escape in double-quoted strings.
2419 If EXPR is omitted, uses $_.
2425 Returns a random fractional number greater than or equal to 0 and less
2426 than the value of EXPR. (EXPR should be positive.) If EXPR is
2427 omitted, the value 1 is used. Automatically calls srand() unless
2428 srand() has already been called. See also srand().
2430 (Note: If your rand function consistently returns numbers that are too
2431 large or too small, then your version of Perl was probably compiled
2432 with the wrong number of RANDBITS.)
2434 =item read FILEHANDLE,SCALAR,LENGTH,OFFSET
2436 =item read FILEHANDLE,SCALAR,LENGTH
2438 Attempts to read LENGTH bytes of data into variable SCALAR from the
2439 specified FILEHANDLE. Returns the number of bytes actually read, or
2440 undef if there was an error. SCALAR will be grown or shrunk to the
2441 length actually read. An OFFSET may be specified to place the read
2442 data at some other place than the beginning of the string. This call
2443 is actually implemented in terms of stdio's fread call. To get a true
2444 read system call, see sysread().
2446 =item readdir DIRHANDLE
2448 Returns the next directory entry for a directory opened by opendir().
2449 If used in a list context, returns all the rest of the entries in the
2450 directory. If there are no more entries, returns an undefined value in
2451 a scalar context or a null list in a list context.
2453 If you're planning to filetest the return values out of a readdir(), you'd
2454 better prepend the directory in question. Otherwise, because we didn't
2455 chdir() there, it would have been testing the wrong file.
2457 opendir(DIR, $some_dir) || die "can't opendir $some_dir: $!";
2458 @dots = grep { /^\./ && -f "$some_dir/$_" } readdir(DIR);
2463 Reads from the file handle EXPR. In scalar context, a single line
2464 is read and returned. In list context, reads until end-of-file is
2465 reached and returns a list of lines (however you've defined lines
2466 with $/ or $INPUT_RECORD_SEPARATOR).
2467 This is the internal function implementing the C<E<lt>EXPRE<gt>>
2468 operator, but you can use it directly. The C<E<lt>EXPRE<gt>>
2469 operator is discussed in more detail in L<perlop/"I/O Operators">.
2475 Returns the value of a symbolic link, if symbolic links are
2476 implemented. If not, gives a fatal error. If there is some system
2477 error, returns the undefined value and sets C<$!> (errno). If EXPR is
2482 EXPR is interpolated and then executed as a system command.
2483 The collected standard output of the command is returned.
2484 In scalar context, it comes back as a single (potentially
2485 multi-line) string. In list context, returns a list of lines
2486 (however you've defined lines with $/ or $INPUT_RECORD_SEPARATOR).
2487 This is the internal function implementing the C<qx/EXPR/>
2488 operator, but you can use it directly. The C<qx/EXPR/>
2489 operator is discussed in more detail in L<perlop/"I/O Operators">.
2491 =item recv SOCKET,SCALAR,LEN,FLAGS
2493 Receives a message on a socket. Attempts to receive LENGTH bytes of
2494 data into variable SCALAR from the specified SOCKET filehandle.
2495 Actually does a C recvfrom(), so that it can returns the address of the
2496 sender. Returns the undefined value if there's an error. SCALAR will
2497 be grown or shrunk to the length actually read. Takes the same flags
2498 as the system call of the same name.
2499 See L<perlipc/"UDP: Message Passing"> for examples.
2505 The C<redo> command restarts the loop block without evaluating the
2506 conditional again. The C<continue> block, if any, is not executed. If
2507 the LABEL is omitted, the command refers to the innermost enclosing
2508 loop. This command is normally used by programs that want to lie to
2509 themselves about what was just input:
2511 # a simpleminded Pascal comment stripper
2512 # (warning: assumes no { or } in strings)
2513 LINE: while (<STDIN>) {
2514 while (s|({.*}.*){.*}|$1 |) {}
2519 if (/}/) { # end of comment?
2532 Returns a TRUE value if EXPR is a reference, FALSE otherwise. If EXPR
2533 is not specified, $_ will be used. The value returned depends on the
2534 type of thing the reference is a reference to.
2535 Builtin types include:
2544 If the referenced object has been blessed into a package, then that package
2545 name is returned instead. You can think of ref() as a typeof() operator.
2547 if (ref($r) eq "HASH") {
2548 print "r is a reference to a hash.\n";
2551 print "r is not a reference at all.\n";
2554 See also L<perlref>.
2556 =item rename OLDNAME,NEWNAME
2558 Changes the name of a file. Returns 1 for success, 0 otherwise. Will
2559 not work across file system boundaries.
2565 Demands some semantics specified by EXPR, or by $_ if EXPR is not
2566 supplied. If EXPR is numeric, demands that the current version of Perl
2567 (C<$]> or $PERL_VERSION) be equal or greater than EXPR.
2569 Otherwise, demands that a library file be included if it hasn't already
2570 been included. The file is included via the do-FILE mechanism, which is
2571 essentially just a variety of eval(). Has semantics similar to the following
2575 local($filename) = @_;
2576 return 1 if $INC{$filename};
2577 local($realfilename,$result);
2579 foreach $prefix (@INC) {
2580 $realfilename = "$prefix/$filename";
2581 if (-f $realfilename) {
2582 $result = do $realfilename;
2586 die "Can't find $filename in \@INC";
2589 die "$filename did not return true value" unless $result;
2590 $INC{$filename} = $realfilename;
2594 Note that the file will not be included twice under the same specified
2595 name. The file must return TRUE as the last statement to indicate
2596 successful execution of any initialization code, so it's customary to
2597 end such a file with "1;" unless you're sure it'll return TRUE
2598 otherwise. But it's better just to put the "C<1;>", in case you add more
2601 If EXPR is a bareword, the require assumes a "F<.pm>" extension and
2602 replaces "F<::>" with "F</>" in the filename for you,
2603 to make it easy to load standard modules. This form of loading of
2604 modules does not risk altering your namespace.
2606 For a yet-more-powerful import facility, see L</use> and
2613 Generally used in a C<continue> block at the end of a loop to clear
2614 variables and reset ?? searches so that they work again. The
2615 expression is interpreted as a list of single characters (hyphens
2616 allowed for ranges). All variables and arrays beginning with one of
2617 those letters are reset to their pristine state. If the expression is
2618 omitted, one-match searches (?pattern?) are reset to match again. Resets
2619 only variables or searches in the current package. Always returns
2622 reset 'X'; # reset all X variables
2623 reset 'a-z'; # reset lower case variables
2624 reset; # just reset ?? searches
2626 Resetting "A-Z" is not recommended because you'll wipe out your
2627 ARGV and ENV arrays. Resets only package variables--lexical variables
2628 are unaffected, but they clean themselves up on scope exit anyway,
2629 so you'll probably want to use them instead. See L</my>.
2635 Returns from a subroutine, eval(), or do FILE with the value of the
2636 given EXPR. Evaluation of EXPR may be in a list, scalar, or void
2637 context, depending on how the return value will be used, and the context
2638 may vary from one execution to the next (see wantarray()). If no EXPR
2639 is given, returns an empty list in a list context, an undefined value in
2640 a scalar context, or nothing in a void context.
2642 (Note that in the absence of a return, a subroutine, eval, or do FILE
2643 will automatically return the value of the last expression evaluated.)
2647 In a list context, returns a list value consisting of the elements
2648 of LIST in the opposite order. In a scalar context, concatenates the
2649 elements of LIST, and returns a string value consisting of those bytes,
2650 but in the opposite order.
2652 print reverse <>; # line tac, last line first
2654 undef $/; # for efficiency of <>
2655 print scalar reverse <>; # byte tac, last line tsrif
2657 This operator is also handy for inverting a hash, although there are some
2658 caveats. If a value is duplicated in the original hash, only one of those
2659 can be represented as a key in the inverted hash. Also, this has to
2660 unwind one hash and build a whole new one, which may take some time
2663 %by_name = reverse %by_address; # Invert the hash
2665 =item rewinddir DIRHANDLE
2667 Sets the current position to the beginning of the directory for the
2668 readdir() routine on DIRHANDLE.
2670 =item rindex STR,SUBSTR,POSITION
2672 =item rindex STR,SUBSTR
2674 Works just like index except that it returns the position of the LAST
2675 occurrence of SUBSTR in STR. If POSITION is specified, returns the
2676 last occurrence at or before that position.
2678 =item rmdir FILENAME
2682 Deletes the directory specified by FILENAME if it is empty. If it
2683 succeeds it returns 1, otherwise it returns 0 and sets C<$!> (errno). If
2684 FILENAME is omitted, uses $_.
2688 The substitution operator. See L<perlop>.
2692 Forces EXPR to be interpreted in a scalar context and returns the value
2695 @counts = ( scalar @a, scalar @b, scalar @c );
2697 There is no equivalent operator to force an expression to
2698 be interpolated in a list context because it's in practice never
2699 needed. If you really wanted to do so, however, you could use
2700 the construction C<@{[ (some expression) ]}>, but usually a simple
2701 C<(some expression)> suffices.
2703 =item seek FILEHANDLE,POSITION,WHENCE
2705 Sets FILEHANDLE's position, just like the fseek() call of stdio.
2706 FILEHANDLE may be an expression whose value gives the name of the
2707 filehandle. The values for WHENCE are 0 to set the new position to
2708 POSITION, 1 to set it to the current position plus POSITION, and 2 to
2709 set it to EOF plus POSITION (typically negative). For WHENCE you may
2710 use the constants SEEK_SET, SEEK_CUR, and SEEK_END from either the
2711 IO::Seekable or the POSIX module. Returns 1 upon success, 0 otherwise.
2713 If you want to position file for sysread() or syswrite(), don't use
2714 seek() -- buffering makes its effect on the file's system position
2715 unpredictable and non-portable. Use sysseek() instead.
2717 On some systems you have to do a seek whenever you switch between reading
2718 and writing. Amongst other things, this may have the effect of calling
2719 stdio's clearerr(3). A WHENCE of 1 (SEEK_CUR) is useful for not moving
2724 This is also useful for applications emulating C<tail -f>. Once you hit
2725 EOF on your read, and then sleep for a while, you might have to stick in a
2726 seek() to reset things. The seek() doesn't change the current position,
2727 but it I<does> clear the end-of-file condition on the handle, so that the
2728 next C<E<lt>FILEE<gt>> makes Perl try again to read something. We hope.
2730 If that doesn't work (some stdios are particularly cantankerous), then
2731 you may need something more like this:
2734 for ($curpos = tell(FILE); $_ = <FILE>; $curpos = tell(FILE)) {
2735 # search for some stuff and put it into files
2737 sleep($for_a_while);
2738 seek(FILE, $curpos, 0);
2741 =item seekdir DIRHANDLE,POS
2743 Sets the current position for the readdir() routine on DIRHANDLE. POS
2744 must be a value returned by telldir(). Has the same caveats about
2745 possible directory compaction as the corresponding system library
2748 =item select FILEHANDLE
2752 Returns the currently selected filehandle. Sets the current default
2753 filehandle for output, if FILEHANDLE is supplied. This has two
2754 effects: first, a C<write> or a C<print> without a filehandle will
2755 default to this FILEHANDLE. Second, references to variables related to
2756 output will refer to this output channel. For example, if you have to
2757 set the top of form format for more than one output channel, you might
2765 FILEHANDLE may be an expression whose value gives the name of the
2766 actual filehandle. Thus:
2768 $oldfh = select(STDERR); $| = 1; select($oldfh);
2770 Some programmers may prefer to think of filehandles as objects with
2771 methods, preferring to write the last example as:
2774 STDERR->autoflush(1);
2776 =item select RBITS,WBITS,EBITS,TIMEOUT
2778 This calls the select(2) system call with the bit masks specified, which
2779 can be constructed using fileno() and vec(), along these lines:
2781 $rin = $win = $ein = '';
2782 vec($rin,fileno(STDIN),1) = 1;
2783 vec($win,fileno(STDOUT),1) = 1;
2786 If you want to select on many filehandles you might wish to write a
2790 local(@fhlist) = split(' ',$_[0]);
2793 vec($bits,fileno($_),1) = 1;
2797 $rin = fhbits('STDIN TTY SOCK');
2801 ($nfound,$timeleft) =
2802 select($rout=$rin, $wout=$win, $eout=$ein, $timeout);
2804 or to block until something becomes ready just do this
2806 $nfound = select($rout=$rin, $wout=$win, $eout=$ein, undef);
2808 Most systems do not bother to return anything useful in $timeleft, so
2809 calling select() in a scalar context just returns $nfound.
2811 Any of the bit masks can also be undef. The timeout, if specified, is
2812 in seconds, which may be fractional. Note: not all implementations are
2813 capable of returning the $timeleft. If not, they always return
2814 $timeleft equal to the supplied $timeout.
2816 You can effect a sleep of 250 milliseconds this way:
2818 select(undef, undef, undef, 0.25);
2820 B<WARNING>: Do not attempt to mix buffered I/O (like read() or E<lt>FHE<gt>)
2821 with select(). You have to use sysread() instead.
2823 =item semctl ID,SEMNUM,CMD,ARG
2825 Calls the System V IPC function semctl. If CMD is &IPC_STAT or
2826 &GETALL, then ARG must be a variable which will hold the returned
2827 semid_ds structure or semaphore value array. Returns like ioctl: the
2828 undefined value for error, "0 but true" for zero, or the actual return
2831 =item semget KEY,NSEMS,FLAGS
2833 Calls the System V IPC function semget. Returns the semaphore id, or
2834 the undefined value if there is an error.
2836 =item semop KEY,OPSTRING
2838 Calls the System V IPC function semop to perform semaphore operations
2839 such as signaling and waiting. OPSTRING must be a packed array of
2840 semop structures. Each semop structure can be generated with
2841 C<pack("sss", $semnum, $semop, $semflag)>. The number of semaphore
2842 operations is implied by the length of OPSTRING. Returns TRUE if
2843 successful, or FALSE if there is an error. As an example, the
2844 following code waits on semaphore $semnum of semaphore id $semid:
2846 $semop = pack("sss", $semnum, -1, 0);
2847 die "Semaphore trouble: $!\n" unless semop($semid, $semop);
2849 To signal the semaphore, replace "-1" with "1".
2851 =item send SOCKET,MSG,FLAGS,TO
2853 =item send SOCKET,MSG,FLAGS
2855 Sends a message on a socket. Takes the same flags as the system call
2856 of the same name. On unconnected sockets you must specify a
2857 destination to send TO, in which case it does a C sendto(). Returns
2858 the number of characters sent, or the undefined value if there is an
2860 See L<perlipc/"UDP: Message Passing"> for examples.
2862 =item setpgrp PID,PGRP
2864 Sets the current process group for the specified PID, 0 for the current
2865 process. Will produce a fatal error if used on a machine that doesn't
2866 implement setpgrp(2). If the arguments are omitted, it defaults to
2867 0,0. Note that the POSIX version of setpgrp() does not accept any
2868 arguments, so only setpgrp 0,0 is portable.
2870 =item setpriority WHICH,WHO,PRIORITY
2872 Sets the current priority for a process, a process group, or a user.
2873 (See setpriority(2).) Will produce a fatal error if used on a machine
2874 that doesn't implement setpriority(2).
2876 =item setsockopt SOCKET,LEVEL,OPTNAME,OPTVAL
2878 Sets the socket option requested. Returns undefined if there is an
2879 error. OPTVAL may be specified as undef if you don't want to pass an
2886 Shifts the first value of the array off and returns it, shortening the
2887 array by 1 and moving everything down. If there are no elements in the
2888 array, returns the undefined value. If ARRAY is omitted, shifts the
2889 @_ array within the lexical scope of subroutines and formats, and the
2890 @ARGV array at file scopes or within the lexical scopes established by
2891 the C<eval ''>, C<BEGIN {}>, C<END {}>, and C<INIT {}> constructs.
2892 See also unshift(), push(), and pop(). Shift() and unshift() do the
2893 same thing to the left end of an array that pop() and push() do to the
2896 =item shmctl ID,CMD,ARG
2898 Calls the System V IPC function shmctl. If CMD is &IPC_STAT, then ARG
2899 must be a variable which will hold the returned shmid_ds structure.
2900 Returns like ioctl: the undefined value for error, "0 but true" for
2901 zero, or the actual return value otherwise.
2903 =item shmget KEY,SIZE,FLAGS
2905 Calls the System V IPC function shmget. Returns the shared memory
2906 segment id, or the undefined value if there is an error.
2908 =item shmread ID,VAR,POS,SIZE
2910 =item shmwrite ID,STRING,POS,SIZE
2912 Reads or writes the System V shared memory segment ID starting at
2913 position POS for size SIZE by attaching to it, copying in/out, and
2914 detaching from it. When reading, VAR must be a variable which will
2915 hold the data read. When writing, if STRING is too long, only SIZE
2916 bytes are used; if STRING is too short, nulls are written to fill out
2917 SIZE bytes. Return TRUE if successful, or FALSE if there is an error.
2919 =item shutdown SOCKET,HOW
2921 Shuts down a socket connection in the manner indicated by HOW, which
2922 has the same interpretation as in the system call of the same name.
2928 Returns the sine of EXPR (expressed in radians). If EXPR is omitted,
2931 For the inverse sine operation, you may use the POSIX::asin()
2932 function, or use this relation:
2934 sub asin { atan2($_[0], sqrt(1 - $_[0] * $_[0])) }
2940 Causes the script to sleep for EXPR seconds, or forever if no EXPR.
2941 May be interrupted by sending the process a SIGALRM. Returns the
2942 number of seconds actually slept. You probably cannot mix alarm() and
2943 sleep() calls, because sleep() is often implemented using alarm().
2945 On some older systems, it may sleep up to a full second less than what
2946 you requested, depending on how it counts seconds. Most modern systems
2947 always sleep the full amount.
2949 For delays of finer granularity than one second, you may use Perl's
2950 syscall() interface to access setitimer(2) if your system supports it,
2951 or else see L</select()> below.
2953 See also the POSIX module's sigpause() function.
2955 =item socket SOCKET,DOMAIN,TYPE,PROTOCOL
2957 Opens a socket of the specified kind and attaches it to filehandle
2958 SOCKET. DOMAIN, TYPE, and PROTOCOL are specified the same as for the
2959 system call of the same name. You should "use Socket;" first to get
2960 the proper definitions imported. See the example in L<perlipc/"Sockets: Client/Server Communication">.
2962 =item socketpair SOCKET1,SOCKET2,DOMAIN,TYPE,PROTOCOL
2964 Creates an unnamed pair of sockets in the specified domain, of the
2965 specified type. DOMAIN, TYPE, and PROTOCOL are specified the same as
2966 for the system call of the same name. If unimplemented, yields a fatal
2967 error. Returns TRUE if successful.
2969 =item sort SUBNAME LIST
2971 =item sort BLOCK LIST
2975 Sorts the LIST and returns the sorted list value. If SUBNAME or BLOCK
2976 is omitted, sorts in standard string comparison order. If SUBNAME is
2977 specified, it gives the name of a subroutine that returns an integer
2978 less than, equal to, or greater than 0, depending on how the elements
2979 of the array are to be ordered. (The C<E<lt>=E<gt>> and C<cmp>
2980 operators are extremely useful in such routines.) SUBNAME may be a
2981 scalar variable name, in which case the value provides the name of the
2982 subroutine to use. In place of a SUBNAME, you can provide a BLOCK as
2983 an anonymous, in-line sort subroutine.
2985 In the interests of efficiency the normal calling code for subroutines is
2986 bypassed, with the following effects: the subroutine may not be a
2987 recursive subroutine, and the two elements to be compared are passed into
2988 the subroutine not via @_ but as the package global variables $a and
2989 $b (see example below). They are passed by reference, so don't
2990 modify $a and $b. And don't try to declare them as lexicals either.
2992 You also cannot exit out of the sort block or subroutine using any of the
2993 loop control operators described in L<perlsyn> or with goto().
2995 When C<use locale> is in effect, C<sort LIST> sorts LIST according to the
2996 current collation locale. See L<perllocale>.
3001 @articles = sort @files;
3003 # same thing, but with explicit sort routine
3004 @articles = sort {$a cmp $b} @files;
3006 # now case-insensitively
3007 @articles = sort {uc($a) cmp uc($b)} @files;
3009 # same thing in reversed order
3010 @articles = sort {$b cmp $a} @files;
3012 # sort numerically ascending
3013 @articles = sort {$a <=> $b} @files;
3015 # sort numerically descending
3016 @articles = sort {$b <=> $a} @files;
3018 # sort using explicit subroutine name
3020 $age{$a} <=> $age{$b}; # presuming numeric
3022 @sortedclass = sort byage @class;
3024 # this sorts the %age hash by value instead of key
3025 # using an in-line function
3026 @eldest = sort { $age{$b} <=> $age{$a} } keys %age;
3028 sub backwards { $b cmp $a; }
3029 @harry = ('dog','cat','x','Cain','Abel');
3030 @george = ('gone','chased','yz','Punished','Axed');
3032 # prints AbelCaincatdogx
3033 print sort backwards @harry;
3034 # prints xdogcatCainAbel
3035 print sort @george, 'to', @harry;
3036 # prints AbelAxedCainPunishedcatchaseddoggonetoxyz
3038 # inefficiently sort by descending numeric compare using
3039 # the first integer after the first = sign, or the
3040 # whole record case-insensitively otherwise
3043 ($b =~ /=(\d+)/)[0] <=> ($a =~ /=(\d+)/)[0]
3048 # same thing, but much more efficiently;
3049 # we'll build auxiliary indices instead
3053 push @nums, /=(\d+)/;
3058 $nums[$b] <=> $nums[$a]
3060 $caps[$a] cmp $caps[$b]
3064 # same thing using a Schwartzian Transform (no temps)
3065 @new = map { $_->[0] }
3066 sort { $b->[1] <=> $a->[1]
3069 } map { [$_, /=(\d+)/, uc($_)] } @old;
3071 If you're using strict, you I<MUST NOT> declare $a
3072 and $b as lexicals. They are package globals. That means
3073 if you're in the C<main> package, it's
3075 @articles = sort {$main::b <=> $main::a} @files;
3079 @articles = sort {$::b <=> $::a} @files;
3081 but if you're in the C<FooPack> package, it's
3083 @articles = sort {$FooPack::b <=> $FooPack::a} @files;
3085 The comparison function is required to behave. If it returns
3086 inconsistent results (sometimes saying $x[1] is less than $x[2] and
3087 sometimes saying the opposite, for example) the Perl interpreter will
3088 probably crash and dump core. This is entirely due to and dependent
3089 upon your system's qsort(3) library routine; this routine often avoids
3090 sanity checks in the interest of speed.
3092 =item splice ARRAY,OFFSET,LENGTH,LIST
3094 =item splice ARRAY,OFFSET,LENGTH
3096 =item splice ARRAY,OFFSET
3098 Removes the elements designated by OFFSET and LENGTH from an array, and
3099 replaces them with the elements of LIST, if any. Returns the elements
3100 removed from the array. The array grows or shrinks as necessary. If
3101 LENGTH is omitted, removes everything from OFFSET onward. The
3102 following equivalences hold (assuming C<$[ == 0>):
3104 push(@a,$x,$y) splice(@a,$#a+1,0,$x,$y)
3105 pop(@a) splice(@a,-1)
3106 shift(@a) splice(@a,0,1)
3107 unshift(@a,$x,$y) splice(@a,0,0,$x,$y)
3108 $a[$x] = $y splice(@a,$x,1,$y);
3110 Example, assuming array lengths are passed before arrays:
3112 sub aeq { # compare two list values
3113 local(@a) = splice(@_,0,shift);
3114 local(@b) = splice(@_,0,shift);
3115 return 0 unless @a == @b; # same len?
3117 return 0 if pop(@a) ne pop(@b);
3121 if (&aeq($len,@foo[1..$len],0+@bar,@bar)) { ... }
3123 =item split /PATTERN/,EXPR,LIMIT
3125 =item split /PATTERN/,EXPR
3127 =item split /PATTERN/
3131 Splits a string into an array of strings, and returns it.
3133 If not in a list context, returns the number of fields found and splits into
3134 the @_ array. (In a list context, you can force the split into @_ by
3135 using C<??> as the pattern delimiters, but it still returns the array
3136 value.) The use of implicit split to @_ is deprecated, however.
3138 If EXPR is omitted, splits the $_ string. If PATTERN is also omitted,
3139 splits on whitespace (after skipping any leading whitespace). Anything
3140 matching PATTERN is taken to be a delimiter separating the fields. (Note
3141 that the delimiter may be longer than one character.)
3143 If LIMIT is specified and is not negative, splits into no more than
3144 that many fields (though it may split into fewer). If LIMIT is
3145 unspecified, trailing null fields are stripped (which potential users
3146 of pop() would do well to remember). If LIMIT is negative, it is
3147 treated as if an arbitrarily large LIMIT had been specified.
3149 A pattern matching the null string (not to be confused with
3150 a null pattern C<//>, which is just one member of the set of patterns
3151 matching a null string) will split the value of EXPR into separate
3152 characters at each point it matches that way. For example:
3154 print join(':', split(/ */, 'hi there'));
3156 produces the output 'h:i:t:h:e:r:e'.
3158 The LIMIT parameter can be used to split a line partially
3160 ($login, $passwd, $remainder) = split(/:/, $_, 3);
3162 When assigning to a list, if LIMIT is omitted, Perl supplies a LIMIT
3163 one larger than the number of variables in the list, to avoid
3164 unnecessary work. For the list above LIMIT would have been 4 by
3165 default. In time critical applications it behooves you not to split
3166 into more fields than you really need.
3168 If the PATTERN contains parentheses, additional array elements are
3169 created from each matching substring in the delimiter.
3171 split(/([,-])/, "1-10,20", 3);
3173 produces the list value
3175 (1, '-', 10, ',', 20)
3177 If you had the entire header of a normal Unix email message in $header,
3178 you could split it up into fields and their values this way:
3180 $header =~ s/\n\s+/ /g; # fix continuation lines
3181 %hdrs = (UNIX_FROM => split /^(\S*?):\s*/m, $header);
3183 The pattern C</PATTERN/> may be replaced with an expression to specify
3184 patterns that vary at runtime. (To do runtime compilation only once,
3185 use C</$variable/o>.)
3187 As a special case, specifying a PATTERN of space (C<' '>) will split on
3188 white space just as split with no arguments does. Thus, split(' ') can
3189 be used to emulate B<awk>'s default behavior, whereas C<split(/ /)>
3190 will give you as many null initial fields as there are leading spaces.
3191 A split on /\s+/ is like a split(' ') except that any leading
3192 whitespace produces a null first field. A split with no arguments
3193 really does a C<split(' ', $_)> internally.
3197 open(passwd, '/etc/passwd');
3199 ($login, $passwd, $uid, $gid, $gcos,
3200 $home, $shell) = split(/:/);
3204 (Note that $shell above will still have a newline on it. See L</chop>,
3205 L</chomp>, and L</join>.)
3207 =item sprintf FORMAT, LIST
3209 Returns a string formatted by the usual printf conventions of the
3210 C library function sprintf(). See L<sprintf(3)> or L<printf(3)>
3211 on your system for an explanation of the general principles.
3213 Perl does all of its own sprintf() formatting -- it emulates the C
3214 function sprintf(), but it doesn't use it (except for floating-point
3215 numbers, and even then only the standard modifiers are allowed). As a
3216 result, any non-standard extensions in your local sprintf() are not
3217 available from Perl.
3219 Perl's sprintf() permits the following universally-known conversions:
3222 %c a character with the given number
3224 %d a signed integer, in decimal
3225 %u an unsigned integer, in decimal
3226 %o an unsigned integer, in octal
3227 %x an unsigned integer, in hexadecimal
3228 %e a floating-point number, in scientific notation
3229 %f a floating-point number, in fixed decimal notation
3230 %g a floating-point number, in %e or %f notation
3232 In addition, Perl permits the following widely-supported conversions:
3234 %X like %x, but using upper-case letters
3235 %E like %e, but using an upper-case "E"
3236 %G like %g, but with an upper-case "E" (if applicable)
3237 %p a pointer (outputs the Perl value's address in hexadecimal)
3238 %n special: *stores* the number of characters output so far
3239 into the next variable in the parameter list
3241 Finally, for backward (and we do mean "backward") compatibility, Perl
3242 permits these unnecessary but widely-supported conversions:
3245 %D a synonym for %ld
3246 %U a synonym for %lu
3247 %O a synonym for %lo
3250 Perl permits the following universally-known flags between the C<%>
3251 and the conversion letter:
3253 space prefix positive number with a space
3254 + prefix positive number with a plus sign
3255 - left-justify within the field
3256 0 use zeros, not spaces, to right-justify
3257 # prefix octal with "0", hex with "0x"
3258 number minimum field width
3259 .number "precision": digits after decimal point for floating-point,
3260 max length for string, minimum length for integer
3261 l interpret integer as C type "long" or "unsigned long"
3262 h interpret integer as C type "short" or "unsigned short"
3264 There is also one Perl-specific flag:
3266 V interpret integer as Perl's standard integer type
3268 Where a number would appear in the flags, an asterisk ("*") may be
3269 used instead, in which case Perl uses the next item in the parameter
3270 list as the given number (that is, as the field width or precision).
3271 If a field width obtained through "*" is negative, it has the same
3272 effect as the '-' flag: left-justification.
3274 If C<use locale> is in effect, the character used for the decimal
3275 point in formatted real numbers is affected by the LC_NUMERIC locale.
3282 Return the square root of EXPR. If EXPR is omitted, returns square
3289 Sets the random number seed for the C<rand> operator. If EXPR is
3290 omitted, uses a semi-random value based on the current time and process
3291 ID, among other things. In versions of Perl prior to 5.004 the default
3292 seed was just the current time(). This isn't a particularly good seed,
3293 so many old programs supply their own seed value (often C<time ^ $$> or
3294 C<time ^ ($$ + ($$ << 15))>), but that isn't necessary any more.
3296 In fact, it's usually not necessary to call srand() at all, because if
3297 it is not called explicitly, it is called implicitly at the first use of
3298 the C<rand> operator. However, this was not the case in version of Perl
3299 before 5.004, so if your script will run under older Perl versions, it
3300 should call srand().
3302 Note that you need something much more random than the default seed for
3303 cryptographic purposes. Checksumming the compressed output of one or more
3304 rapidly changing operating system status programs is the usual method. For
3307 srand (time ^ $$ ^ unpack "%L*", `ps axww | gzip`);
3309 If you're particularly concerned with this, see the Math::TrulyRandom
3312 Do I<not> call srand() multiple times in your program unless you know
3313 exactly what you're doing and why you're doing it. The point of the
3314 function is to "seed" the rand() function so that rand() can produce
3315 a different sequence each time you run your program. Just do it once at the
3316 top of your program, or you I<won't> get random numbers out of rand()!
3318 Frequently called programs (like CGI scripts) that simply use
3322 for a seed can fall prey to the mathematical property that
3326 one-third of the time. So don't do that.
3328 =item stat FILEHANDLE
3334 Returns a 13-element array giving the status info for a file, either the
3335 file opened via FILEHANDLE, or named by EXPR. If EXPR is omitted, it
3336 stats $_. Returns a null list if the stat fails. Typically used as
3340 ($dev,$ino,$mode,$nlink,$uid,$gid,$rdev,$size,
3341 $atime,$mtime,$ctime,$blksize,$blocks)
3344 Not all fields are supported on all filesystem types. Here are the
3345 meaning of the fields:
3347 0 dev device number of filesystem
3349 2 mode file mode (type and permissions)
3350 3 nlink number of (hard) links to the file
3351 4 uid numeric user ID of file's owner
3352 5 gid numeric group ID of file's owner
3353 6 rdev the device identifier (special files only)
3354 7 size total size of file, in bytes
3355 8 atime last access time since the epoch
3356 9 mtime last modify time since the epoch
3357 10 ctime inode change time (NOT creation time!) since the epoch
3358 11 blksize preferred block size for file system I/O
3359 12 blocks actual number of blocks allocated
3361 (The epoch was at 00:00 January 1, 1970 GMT.)
3363 If stat is passed the special filehandle consisting of an underline, no
3364 stat is done, but the current contents of the stat structure from the
3365 last stat or filetest are returned. Example:
3367 if (-x $file && (($d) = stat(_)) && $d < 0) {
3368 print "$file is executable NFS file\n";
3371 (This works on machines only for which the device number is negative under NFS.)
3377 Takes extra time to study SCALAR (C<$_> if unspecified) in anticipation of
3378 doing many pattern matches on the string before it is next modified.
3379 This may or may not save time, depending on the nature and number of
3380 patterns you are searching on, and on the distribution of character
3381 frequencies in the string to be searched -- you probably want to compare
3382 run times with and without it to see which runs faster. Those loops
3383 which scan for many short constant strings (including the constant
3384 parts of more complex patterns) will benefit most. You may have only
3385 one study active at a time -- if you study a different scalar the first
3386 is "unstudied". (The way study works is this: a linked list of every
3387 character in the string to be searched is made, so we know, for
3388 example, where all the 'k' characters are. From each search string,
3389 the rarest character is selected, based on some static frequency tables
3390 constructed from some C programs and English text. Only those places
3391 that contain this "rarest" character are examined.)
3393 For example, here is a loop which inserts index producing entries
3394 before any line containing a certain pattern:
3398 print ".IX foo\n" if /\bfoo\b/;
3399 print ".IX bar\n" if /\bbar\b/;
3400 print ".IX blurfl\n" if /\bblurfl\b/;
3405 In searching for /\bfoo\b/, only those locations in $_ that contain "f"
3406 will be looked at, because "f" is rarer than "o". In general, this is
3407 a big win except in pathological cases. The only question is whether
3408 it saves you more time than it took to build the linked list in the
3411 Note that if you have to look for strings that you don't know till
3412 runtime, you can build an entire loop as a string and eval that to
3413 avoid recompiling all your patterns all the time. Together with
3414 undefining $/ to input entire files as one record, this can be very
3415 fast, often faster than specialized programs like fgrep(1). The following
3416 scans a list of files (C<@files>) for a list of words (C<@words>), and prints
3417 out the names of those files that contain a match:
3419 $search = 'while (<>) { study;';
3420 foreach $word (@words) {
3421 $search .= "++\$seen{\$ARGV} if /\\b$word\\b/;\n";
3426 eval $search; # this screams
3427 $/ = "\n"; # put back to normal input delimiter
3428 foreach $file (sort keys(%seen)) {
3436 =item sub NAME BLOCK
3438 This is subroutine definition, not a real function I<per se>. With just a
3439 NAME (and possibly prototypes), it's just a forward declaration. Without
3440 a NAME, it's an anonymous function declaration, and does actually return a
3441 value: the CODE ref of the closure you just created. See L<perlsub> and
3442 L<perlref> for details.
3444 =item substr EXPR,OFFSET,LEN
3446 =item substr EXPR,OFFSET
3448 Extracts a substring out of EXPR and returns it. First character is at
3449 offset 0, or whatever you've set C<$[> to (but don't do that).
3450 If OFFSET is negative (or more precisely, less than C<$[>), starts
3451 that far from the end of the string. If LEN is omitted, returns
3452 everything to the end of the string. If LEN is negative, leaves that
3453 many characters off the end of the string.
3455 If you specify a substring which is partly outside the string, the part
3456 within the string is returned. If the substring is totally outside
3457 the string a warning is produced.
3459 You can use the substr() function
3460 as an lvalue, in which case EXPR must be an lvalue. If you assign
3461 something shorter than LEN, the string will shrink, and if you assign
3462 something longer than LEN, the string will grow to accommodate it. To
3463 keep the string the same length you may need to pad or chop your value
3466 =item symlink OLDFILE,NEWFILE
3468 Creates a new filename symbolically linked to the old filename.
3469 Returns 1 for success, 0 otherwise. On systems that don't support
3470 symbolic links, produces a fatal error at run time. To check for that,
3473 $symlink_exists = (eval {symlink("","")};, $@ eq '');
3477 Calls the system call specified as the first element of the list,
3478 passing the remaining elements as arguments to the system call. If
3479 unimplemented, produces a fatal error. The arguments are interpreted
3480 as follows: if a given argument is numeric, the argument is passed as
3481 an int. If not, the pointer to the string value is passed. You are
3482 responsible to make sure a string is pre-extended long enough to
3483 receive any result that might be written into a string. If your
3484 integer arguments are not literals and have never been interpreted in a
3485 numeric context, you may need to add 0 to them to force them to look
3488 require 'syscall.ph'; # may need to run h2ph
3489 syscall(&SYS_write, fileno(STDOUT), "hi there\n", 9);
3491 Note that Perl supports passing of up to only 14 arguments to your system call,
3492 which in practice should usually suffice.
3494 Syscall returns whatever value returned by the system call it calls.
3495 If the system call fails, syscall returns -1 and sets C<$!> (errno).
3496 Note that some system calls can legitimately return -1. The proper
3497 way to handle such calls is to assign C<$!=0;> before the call and
3498 check the value of <$!> if syscall returns -1.
3500 There's a problem with C<syscall(&SYS_pipe)>: it returns the file
3501 number of the read end of the pipe it creates. There is no way
3502 to retrieve the file number of the other end. You can avoid this
3503 problem by using C<pipe> instead.
3505 =item sysopen FILEHANDLE,FILENAME,MODE
3507 =item sysopen FILEHANDLE,FILENAME,MODE,PERMS
3509 Opens the file whose filename is given by FILENAME, and associates it
3510 with FILEHANDLE. If FILEHANDLE is an expression, its value is used as
3511 the name of the real filehandle wanted. This function calls the
3512 underlying operating system's C<open> function with the parameters
3513 FILENAME, MODE, PERMS.
3515 The possible values and flag bits of the MODE parameter are
3516 system-dependent; they are available via the standard module C<Fcntl>.
3517 However, for historical reasons, some values are universal: zero means
3518 read-only, one means write-only, and two means read/write.
3520 If the file named by FILENAME does not exist and the C<open> call
3521 creates it (typically because MODE includes the O_CREAT flag), then
3522 the value of PERMS specifies the permissions of the newly created
3523 file. If PERMS is omitted, the default value is 0666, which allows
3524 read and write for all. This default is reasonable: see C<umask>.
3526 The IO::File module provides a more object-oriented approach, if you're
3527 into that kind of thing.
3529 =item sysread FILEHANDLE,SCALAR,LENGTH,OFFSET
3531 =item sysread FILEHANDLE,SCALAR,LENGTH
3533 Attempts to read LENGTH bytes of data into variable SCALAR from the
3534 specified FILEHANDLE, using the system call read(2). It bypasses
3535 stdio, so mixing this with other kinds of reads, print(), write(),
3536 seek(), or tell() can cause confusion because stdio usually buffers
3537 data. Returns the number of bytes actually read, or undef if there
3538 was an error. SCALAR will be grown or shrunk so that the last byte
3539 actually read is the last byte of the scalar after the read.
3541 An OFFSET may be specified to place the read data at some place in the
3542 string other than the beginning. A negative OFFSET specifies
3543 placement at that many bytes counting backwards from the end of the
3544 string. A positive OFFSET greater than the length of SCALAR results
3545 in the string being padded to the required size with "\0" bytes before
3546 the result of the read is appended.
3548 =item sysseek FILEHANDLE,POSITION,WHENCE
3550 Sets FILEHANDLE's system position using the system call lseek(2). It
3551 bypasses stdio, so mixing this with reads (other than sysread()),
3552 print(), write(), seek(), or tell() may cause confusion. FILEHANDLE may
3553 be an expression whose value gives the name of the filehandle. The
3554 values for WHENCE are 0 to set the new position to POSITION, 1 to set
3555 the it to the current position plus POSITION, and 2 to set it to EOF
3556 plus POSITION (typically negative). For WHENCE, you may use the
3557 constants SEEK_SET, SEEK_CUR, and SEEK_END from either the IO::Seekable
3558 or the POSIX module.
3560 Returns the new position, or the undefined value on failure. A position
3561 of zero is returned as the string "0 but true"; thus sysseek() returns
3562 TRUE on success and FALSE on failure, yet you can still easily determine
3567 Does exactly the same thing as "exec LIST" except that a fork is done
3568 first, and the parent process waits for the child process to complete.
3569 Note that argument processing varies depending on the number of
3570 arguments. The return value is the exit status of the program as
3571 returned by the wait() call. To get the actual exit value divide by
3572 256. See also L</exec>. This is I<NOT> what you want to use to capture
3573 the output from a command, for that you should use merely backticks or
3574 qx//, as described in L<perlop/"`STRING`">.
3576 Because system() and backticks block SIGINT and SIGQUIT, killing the
3577 program they're running doesn't actually interrupt your program.
3579 @args = ("command", "arg1", "arg2");
3581 or die "system @args failed: $?"
3583 Here's a more elaborate example of analysing the return value from
3584 system() on a Unix system to check for all possibilities, including for
3585 signals and core dumps.
3587 $rc = 0xffff & system @args;
3588 printf "system(%s) returned %#04x: ", "@args", $rc;
3590 print "ran with normal exit\n";
3592 elsif ($rc == 0xff00) {
3593 print "command failed: $!\n";
3595 elsif ($rc > 0x80) {
3597 print "ran with non-zero exit status $rc\n";
3603 print "core dump from ";
3605 print "signal $rc\n"
3609 When the arguments get executed via the system shell, results will
3610 be subject to its quirks and capabilities. See L<perlop/"`STRING`">
3613 =item syswrite FILEHANDLE,SCALAR,LENGTH,OFFSET
3615 =item syswrite FILEHANDLE,SCALAR,LENGTH
3617 Attempts to write LENGTH bytes of data from variable SCALAR to the
3618 specified FILEHANDLE, using the system call write(2). It bypasses
3619 stdio, so mixing this with reads (other than sysread()), print(),
3620 write(), seek(), or tell() may cause confusion because stdio usually
3621 buffers data. Returns the number of bytes actually written, or undef
3622 if there was an error. If the LENGTH is greater than the available
3623 data in the SCALAR after the OFFSET, only as much data as is available
3626 An OFFSET may be specified to write the data from some part of the
3627 string other than the beginning. A negative OFFSET specifies writing
3628 that many bytes counting backwards from the end of the string. In the
3629 case the SCALAR is empty you can use OFFSET but only zero offset.
3631 =item tell FILEHANDLE
3635 Returns the current position for FILEHANDLE. FILEHANDLE may be an
3636 expression whose value gives the name of the actual filehandle. If
3637 FILEHANDLE is omitted, assumes the file last read.
3639 =item telldir DIRHANDLE
3641 Returns the current position of the readdir() routines on DIRHANDLE.
3642 Value may be given to seekdir() to access a particular location in a
3643 directory. Has the same caveats about possible directory compaction as
3644 the corresponding system library routine.
3646 =item tie VARIABLE,CLASSNAME,LIST
3648 This function binds a variable to a package class that will provide the
3649 implementation for the variable. VARIABLE is the name of the variable
3650 to be enchanted. CLASSNAME is the name of a class implementing objects
3651 of correct type. Any additional arguments are passed to the "new"
3652 method of the class (meaning TIESCALAR, TIEARRAY, or TIEHASH).
3653 Typically these are arguments such as might be passed to the dbm_open()
3654 function of C. The object returned by the "new" method is also
3655 returned by the tie() function, which would be useful if you want to
3656 access other methods in CLASSNAME.
3658 Note that functions such as keys() and values() may return huge array
3659 values when used on large objects, like DBM files. You may prefer to
3660 use the each() function to iterate over such. Example:
3662 # print out history file offsets
3664 tie(%HIST, 'NDBM_File', '/usr/lib/news/history', 1, 0);
3665 while (($key,$val) = each %HIST) {
3666 print $key, ' = ', unpack('L',$val), "\n";
3670 A class implementing a hash should have the following methods:
3672 TIEHASH classname, LIST
3675 STORE this, key, value
3679 NEXTKEY this, lastkey
3681 A class implementing an ordinary array should have the following methods:
3683 TIEARRAY classname, LIST
3686 STORE this, key, value
3689 A class implementing a scalar should have the following methods:
3691 TIESCALAR classname, LIST
3696 Unlike dbmopen(), the tie() function will not use or require a module
3697 for you--you need to do that explicitly yourself. See L<DB_File>
3698 or the F<Config> module for interesting tie() implementations.
3700 For further details see L<perltie>, L<tied VARIABLE>.
3704 Returns a reference to the object underlying VARIABLE (the same value
3705 that was originally returned by the tie() call which bound the variable
3706 to a package.) Returns the undefined value if VARIABLE isn't tied to a
3711 Returns the number of non-leap seconds since whatever time the system
3712 considers to be the epoch (that's 00:00:00, January 1, 1904 for MacOS,
3713 and 00:00:00 UTC, January 1, 1970 for most other systems).
3714 Suitable for feeding to gmtime() and localtime().
3718 Returns a four-element array giving the user and system times, in
3719 seconds, for this process and the children of this process.
3721 ($user,$system,$cuser,$csystem) = times;
3725 The transliteration operator. Same as y///. See L<perlop>.
3727 =item truncate FILEHANDLE,LENGTH
3729 =item truncate EXPR,LENGTH
3731 Truncates the file opened on FILEHANDLE, or named by EXPR, to the
3732 specified length. Produces a fatal error if truncate isn't implemented
3739 Returns an uppercased version of EXPR. This is the internal function
3740 implementing the \U escape in double-quoted strings.
3741 Respects current LC_CTYPE locale if C<use locale> in force. See L<perllocale>.
3743 If EXPR is omitted, uses $_.
3749 Returns the value of EXPR with the first character uppercased. This is
3750 the internal function implementing the \u escape in double-quoted strings.
3751 Respects current LC_CTYPE locale if C<use locale> in force. See L<perllocale>.
3753 If EXPR is omitted, uses $_.
3759 Sets the umask for the process to EXPR and returns the previous value.
3760 If EXPR is omitted, merely returns the current umask. Remember that a
3761 umask is a number, usually given in octal; it is I<not> a string of octal
3762 digits. See also L</oct>, if all you have is a string.
3768 Undefines the value of EXPR, which must be an lvalue. Use only on a
3769 scalar value, an entire array, an entire hash, or a subroutine name (using
3770 "&"). (Using undef() will probably not do what you expect on most
3771 predefined variables or DBM list values, so don't do that.) Always
3772 returns the undefined value. You can omit the EXPR, in which case
3773 nothing is undefined, but you still get an undefined value that you
3774 could, for instance, return from a subroutine, assign to a variable or
3775 pass as a parameter. Examples:
3778 undef $bar{'blurfl'}; # Compare to: delete $bar{'blurfl'};
3782 return (wantarray ? (undef, $errmsg) : undef) if $they_blew_it;
3783 select undef, undef, undef, 0.25;
3784 ($a, $b, undef, $c) = &foo; # Ignore third value returned
3790 Deletes a list of files. Returns the number of files successfully
3793 $cnt = unlink 'a', 'b', 'c';
3797 Note: unlink will not delete directories unless you are superuser and
3798 the B<-U> flag is supplied to Perl. Even if these conditions are
3799 met, be warned that unlinking a directory can inflict damage on your
3800 filesystem. Use rmdir instead.
3802 If LIST is omitted, uses $_.
3804 =item unpack TEMPLATE,EXPR
3806 Unpack does the reverse of pack: it takes a string representing a
3807 structure and expands it out into a list value, returning the array
3808 value. (In a scalar context, it returns merely the first value
3809 produced.) The TEMPLATE has the same format as in the pack function.
3810 Here's a subroutine that does substring:
3813 local($what,$where,$howmuch) = @_;
3814 unpack("x$where a$howmuch", $what);
3819 sub ordinal { unpack("c",$_[0]); } # same as ord()
3821 In addition, you may prefix a field with a %E<lt>numberE<gt> to indicate that
3822 you want a E<lt>numberE<gt>-bit checksum of the items instead of the items
3823 themselves. Default is a 16-bit checksum. For example, the following
3824 computes the same number as the System V sum program:
3827 $checksum += unpack("%16C*", $_);
3831 The following efficiently counts the number of set bits in a bit vector:
3833 $setbits = unpack("%32b*", $selectmask);
3835 =item untie VARIABLE
3837 Breaks the binding between a variable and a package. (See tie().)
3839 =item unshift ARRAY,LIST
3841 Does the opposite of a C<shift>. Or the opposite of a C<push>,
3842 depending on how you look at it. Prepends list to the front of the
3843 array, and returns the new number of elements in the array.
3845 unshift(ARGV, '-e') unless $ARGV[0] =~ /^-/;
3847 Note the LIST is prepended whole, not one element at a time, so the
3848 prepended elements stay in the same order. Use reverse to do the
3851 =item use Module LIST
3855 =item use Module VERSION LIST
3859 Imports some semantics into the current package from the named module,
3860 generally by aliasing certain subroutine or variable names into your
3861 package. It is exactly equivalent to
3863 BEGIN { require Module; import Module LIST; }
3865 except that Module I<must> be a bareword.
3867 If the first argument to C<use> is a number, it is treated as a version
3868 number instead of a module name. If the version of the Perl interpreter
3869 is less than VERSION, then an error message is printed and Perl exits
3870 immediately. This is often useful if you need to check the current
3871 Perl version before C<use>ing library modules which have changed in
3872 incompatible ways from older versions of Perl. (We try not to do
3873 this more than we have to.)
3875 The BEGIN forces the require and import to happen at compile time. The
3876 require makes sure the module is loaded into memory if it hasn't been
3877 yet. The import is not a builtin--it's just an ordinary static method
3878 call into the "Module" package to tell the module to import the list of
3879 features back into the current package. The module can implement its
3880 import method any way it likes, though most modules just choose to
3881 derive their import method via inheritance from the Exporter class that
3882 is defined in the Exporter module. See L<Exporter>. If no import
3883 method can be found then the error is currently silently ignored. This
3884 may change to a fatal error in a future version.
3886 If you don't want your namespace altered, explicitly supply an empty list:
3890 That is exactly equivalent to
3892 BEGIN { require Module; }
3894 If the VERSION argument is present between Module and LIST, then the
3895 C<use> will call the VERSION method in class Module with the given
3896 version as an argument. The default VERSION method, inherited from
3897 the Universal class, croaks if the given version is larger than the
3898 value of the variable $Module::VERSION. (Note that there is not a
3899 comma after VERSION!)
3901 Because this is a wide-open interface, pragmas (compiler directives)
3902 are also implemented this way. Currently implemented pragmas are:
3906 use sigtrap qw(SEGV BUS);
3907 use strict qw(subs vars refs);
3908 use subs qw(afunc blurfl);
3910 These pseudo-modules import semantics into the current block scope, unlike
3911 ordinary modules, which import symbols into the current package (which are
3912 effective through the end of the file).
3914 There's a corresponding "no" command that unimports meanings imported
3915 by use, i.e., it calls C<unimport Module LIST> instead of C<import>.
3920 If no unimport method can be found the call fails with a fatal error.
3922 See L<perlmod> for a list of standard modules and pragmas.
3926 Changes the access and modification times on each file of a list of
3927 files. The first two elements of the list must be the NUMERICAL access
3928 and modification times, in that order. Returns the number of files
3929 successfully changed. The inode modification time of each file is set
3930 to the current time. Example of a "touch" command:
3934 utime $now, $now, @ARGV;
3938 Returns a normal array consisting of all the values of the named hash.
3939 (In a scalar context, returns the number of values.) The values are
3940 returned in an apparently random order, but it is the same order as either
3941 the keys() or each() function would produce on the same hash. As a side
3942 effect, it resets HASH's iterator. See also keys(), each(), and sort().
3944 =item vec EXPR,OFFSET,BITS
3946 Treats the string in EXPR as a vector of unsigned integers, and
3947 returns the value of the bit field specified by OFFSET. BITS specifies
3948 the number of bits that are reserved for each entry in the bit
3949 vector. This must be a power of two from 1 to 32. vec() may also be
3950 assigned to, in which case parentheses are needed to give the expression
3951 the correct precedence as in
3953 vec($image, $max_x * $x + $y, 8) = 3;
3955 Vectors created with vec() can also be manipulated with the logical
3956 operators |, &, and ^, which will assume a bit vector operation is
3957 desired when both operands are strings.
3959 To transform a bit vector into a string or array of 0's and 1's, use these:
3961 $bits = unpack("b*", $vector);
3962 @bits = split(//, unpack("b*", $vector));
3964 If you know the exact length in bits, it can be used in place of the *.
3968 Waits for a child process to terminate and returns the pid of the
3969 deceased process, or -1 if there are no child processes. The status is
3972 =item waitpid PID,FLAGS
3974 Waits for a particular child process to terminate and returns the pid
3975 of the deceased process, or -1 if there is no such child process. The
3976 status is returned in C<$?>. If you say
3978 use POSIX ":sys_wait_h";
3980 waitpid(-1,&WNOHANG);
3982 then you can do a non-blocking wait for any process. Non-blocking wait
3983 is available on machines supporting either the waitpid(2) or
3984 wait4(2) system calls. However, waiting for a particular pid with
3985 FLAGS of 0 is implemented everywhere. (Perl emulates the system call
3986 by remembering the status values of processes that have exited but have
3987 not been harvested by the Perl script yet.)
3991 Returns TRUE if the context of the currently executing subroutine is
3992 looking for a list value. Returns FALSE if the context is looking
3993 for a scalar. Returns the undefined value if the context is looking
3994 for no value (void context).
3996 return unless defined wantarray; # don't bother doing more
3997 my @a = complex_calculation();
3998 return wantarray ? @a : "@a";
4002 Produces a message on STDERR just like die(), but doesn't exit or throw
4005 No message is printed if there is a C<$SIG{__WARN__}> handler
4006 installed. It is the handler's responsibility to deal with the message
4007 as it sees fit (like, for instance, converting it into a die()). Most
4008 handlers must therefore make arrangements to actually display the
4009 warnings that they are not prepared to deal with, by calling warn()
4010 again in the handler. Note that this is quite safe and will not
4011 produce an endless loop, since C<__WARN__> hooks are not called from
4014 You will find this behavior is slightly different from that of
4015 C<$SIG{__DIE__}> handlers (which don't suppress the error text, but can
4016 instead call die() again to change it).
4018 Using a C<__WARN__> handler provides a powerful way to silence all
4019 warnings (even the so-called mandatory ones). An example:
4021 # wipe out *all* compile-time warnings
4022 BEGIN { $SIG{'__WARN__'} = sub { warn $_[0] if $DOWARN } }
4024 my $foo = 20; # no warning about duplicate my $foo,
4025 # but hey, you asked for it!
4026 # no compile-time or run-time warnings before here
4029 # run-time warnings enabled after here
4030 warn "\$foo is alive and $foo!"; # does show up
4032 See L<perlvar> for details on setting C<%SIG> entries, and for more
4035 =item write FILEHANDLE
4041 Writes a formatted record (possibly multi-line) to the specified file,
4042 using the format associated with that file. By default the format for
4043 a file is the one having the same name as the filehandle, but the
4044 format for the current output channel (see the select() function) may be set
4045 explicitly by assigning the name of the format to the C<$~> variable.
4047 Top of form processing is handled automatically: if there is
4048 insufficient room on the current page for the formatted record, the
4049 page is advanced by writing a form feed, a special top-of-page format
4050 is used to format the new page header, and then the record is written.
4051 By default the top-of-page format is the name of the filehandle with
4052 "_TOP" appended, but it may be dynamically set to the format of your
4053 choice by assigning the name to the C<$^> variable while the filehandle is
4054 selected. The number of lines remaining on the current page is in
4055 variable C<$->, which can be set to 0 to force a new page.
4057 If FILEHANDLE is unspecified, output goes to the current default output
4058 channel, which starts out as STDOUT but may be changed by the
4059 C<select> operator. If the FILEHANDLE is an EXPR, then the expression
4060 is evaluated and the resulting string is used to look up the name of
4061 the FILEHANDLE at run time. For more on formats, see L<perlform>.
4063 Note that write is I<NOT> the opposite of read. Unfortunately.
4067 The transliteration operator. Same as tr///. See L<perlop>.