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POSIX

Perl 5 version 18.2 documentation
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POSIX

NAME

POSIX - Perl interface to IEEE Std 1003.1

SYNOPSIS

  1. use POSIX ();
  2. use POSIX qw(setsid);
  3. use POSIX qw(:errno_h :fcntl_h);
  4. printf "EINTR is %d\n", EINTR;
  5. $sess_id = POSIX::setsid();
  6. $fd = POSIX::open($path, O_CREAT|O_EXCL|O_WRONLY, 0644);
  7. # note: that's a filedescriptor, *NOT* a filehandle

DESCRIPTION

The POSIX module permits you to access all (or nearly all) the standard POSIX 1003.1 identifiers. Many of these identifiers have been given Perl-ish interfaces.

Everything is exported by default with the exception of any POSIX functions with the same name as a built-in Perl function, such as abs, alarm, rmdir, write, etc.., which will be exported only if you ask for them explicitly. This is an unfortunate backwards compatibility feature. You can stop the exporting by saying use POSIX () and then use the fully qualified names (ie. POSIX::SEEK_END ), or by giving an explicit import list. If you do neither, and opt for the default, use POSIX; has to import 553 symbols.

This document gives a condensed list of the features available in the POSIX module. Consult your operating system's manpages for general information on most features. Consult perlfunc for functions which are noted as being identical to Perl's builtin functions.

The first section describes POSIX functions from the 1003.1 specification. The second section describes some classes for signal objects, TTY objects, and other miscellaneous objects. The remaining sections list various constants and macros in an organization which roughly follows IEEE Std 1003.1b-1993.

CAVEATS

A few functions are not implemented because they are C specific. If you attempt to call these, they will print a message telling you that they aren't implemented, and suggest using the Perl equivalent should one exist. For example, trying to access the setjmp() call will elicit the message "setjmp() is C-specific: use eval {} instead".

Furthermore, some evil vendors will claim 1003.1 compliance, but in fact are not so: they will not pass the PCTS (POSIX Compliance Test Suites). For example, one vendor may not define EDEADLK, or the semantics of the errno values set by open(2) might not be quite right. Perl does not attempt to verify POSIX compliance. That means you can currently successfully say "use POSIX", and then later in your program you find that your vendor has been lax and there's no usable ICANON macro after all. This could be construed to be a bug.

FUNCTIONS

  • _exit

    This is identical to the C function _exit() . It exits the program immediately which means among other things buffered I/O is not flushed.

    Note that when using threads and in Linux this is not a good way to exit a thread because in Linux processes and threads are kind of the same thing (Note: while this is the situation in early 2003 there are projects under way to have threads with more POSIXly semantics in Linux). If you want not to return from a thread, detach the thread.

  • abort

    This is identical to the C function abort() . It terminates the process with a SIGABRT signal unless caught by a signal handler or if the handler does not return normally (it e.g. does a longjmp ).

  • abs

    This is identical to Perl's builtin abs() function, returning the absolute value of its numerical argument.

  • access

    Determines the accessibility of a file.

    1. if( POSIX::access( "/", &POSIX::R_OK ) ){
    2. print "have read permission\n";
    3. }

    Returns undef on failure. Note: do not use access() for security purposes. Between the access() call and the operation you are preparing for the permissions might change: a classic race condition.

  • acos

    This is identical to the C function acos() , returning the arcus cosine of its numerical argument. See also Math::Trig.

  • alarm

    This is identical to Perl's builtin alarm() function, either for arming or disarming the SIGARLM timer.

  • asctime

    This is identical to the C function asctime() . It returns a string of the form

    1. "Fri Jun 2 18:22:13 2000\n\0"

    and it is called thusly

    1. $asctime = asctime($sec, $min, $hour, $mday, $mon, $year,
    2. $wday, $yday, $isdst);

    The $mon is zero-based: January equals 0 . The $year is 1900-based: 2001 equals 101 . $wday and $yday default to zero (and are usually ignored anyway), and $isdst defaults to -1.

  • asin

    This is identical to the C function asin() , returning the arcus sine of its numerical argument. See also Math::Trig.

  • assert

    Unimplemented, but you can use die and the Carp module to achieve similar things.

  • atan

    This is identical to the C function atan() , returning the arcus tangent of its numerical argument. See also Math::Trig.

  • atan2

    This is identical to Perl's builtin atan2() function, returning the arcus tangent defined by its two numerical arguments, the y coordinate and the x coordinate. See also Math::Trig.

  • atexit

    atexit() is C-specific: use END {} instead, see perlsub.

  • atof

    atof() is C-specific. Perl converts strings to numbers transparently. If you need to force a scalar to a number, add a zero to it.

  • atoi

    atoi() is C-specific. Perl converts strings to numbers transparently. If you need to force a scalar to a number, add a zero to it. If you need to have just the integer part, see int.

  • atol

    atol() is C-specific. Perl converts strings to numbers transparently. If you need to force a scalar to a number, add a zero to it. If you need to have just the integer part, see int.

  • bsearch

    bsearch() not supplied. For doing binary search on wordlists, see Search::Dict.

  • calloc

    calloc() is C-specific. Perl does memory management transparently.

  • ceil

    This is identical to the C function ceil() , returning the smallest integer value greater than or equal to the given numerical argument.

  • chdir

    This is identical to Perl's builtin chdir() function, allowing one to change the working (default) directory, see chdir.

  • chmod

    This is identical to Perl's builtin chmod() function, allowing one to change file and directory permissions, see chmod.

  • chown

    This is identical to Perl's builtin chown() function, allowing one to change file and directory owners and groups, see chown.

  • clearerr

    Use the method IO::Handle::clearerr() instead, to reset the error state (if any) and EOF state (if any) of the given stream.

  • clock

    This is identical to the C function clock() , returning the amount of spent processor time in microseconds.

  • close

    Close the file. This uses file descriptors such as those obtained by calling POSIX::open .

    1. $fd = POSIX::open( "foo", &POSIX::O_RDONLY );
    2. POSIX::close( $fd );

    Returns undef on failure.

    See also close.

  • closedir

    This is identical to Perl's builtin closedir() function for closing a directory handle, see closedir.

  • cos

    This is identical to Perl's builtin cos() function, for returning the cosine of its numerical argument, see cos. See also Math::Trig.

  • cosh

    This is identical to the C function cosh() , for returning the hyperbolic cosine of its numeric argument. See also Math::Trig.

  • creat

    Create a new file. This returns a file descriptor like the ones returned by POSIX::open . Use POSIX::close to close the file.

    1. $fd = POSIX::creat( "foo", 0611 );
    2. POSIX::close( $fd );

    See also sysopen and its O_CREAT flag.

  • ctermid

    Generates the path name for the controlling terminal.

    1. $path = POSIX::ctermid();
  • ctime

    This is identical to the C function ctime() and equivalent to asctime(localtime(...)) , see asctime and localtime.

  • cuserid

    Get the login name of the owner of the current process.

    1. $name = POSIX::cuserid();
  • difftime

    This is identical to the C function difftime() , for returning the time difference (in seconds) between two times (as returned by time()), see time.

  • div

    div() is C-specific, use int on the usual / division and the modulus % .

  • dup

    This is similar to the C function dup() , for duplicating a file descriptor.

    This uses file descriptors such as those obtained by calling POSIX::open .

    Returns undef on failure.

  • dup2

    This is similar to the C function dup2() , for duplicating a file descriptor to an another known file descriptor.

    This uses file descriptors such as those obtained by calling POSIX::open .

    Returns undef on failure.

  • errno

    Returns the value of errno.

    1. $errno = POSIX::errno();

    This identical to the numerical values of the $! , see $ERRNO in perlvar.

  • execl

    execl() is C-specific, see exec.

  • execle

    execle() is C-specific, see exec.

  • execlp

    execlp() is C-specific, see exec.

  • execv

    execv() is C-specific, see exec.

  • execve

    execve() is C-specific, see exec.

  • execvp

    execvp() is C-specific, see exec.

  • exit

    This is identical to Perl's builtin exit() function for exiting the program, see exit.

  • exp

    This is identical to Perl's builtin exp() function for returning the exponent (e-based) of the numerical argument, see exp.

  • fabs

    This is identical to Perl's builtin abs() function for returning the absolute value of the numerical argument, see abs.

  • fclose

    Use method IO::Handle::close() instead, or see close.

  • fcntl

    This is identical to Perl's builtin fcntl() function, see fcntl.

  • fdopen

    Use method IO::Handle::new_from_fd() instead, or see open.

  • feof

    Use method IO::Handle::eof() instead, or see eof.

  • ferror

    Use method IO::Handle::error() instead.

  • fflush

    Use method IO::Handle::flush() instead. See also $OUTPUT_AUTOFLUSH in perlvar.

  • fgetc

    Use method IO::Handle::getc() instead, or see read.

  • fgetpos

    Use method IO::Seekable::getpos() instead, or see seek.

  • fgets

    Use method IO::Handle::gets() instead. Similar to <>, also known as readline.

  • fileno

    Use method IO::Handle::fileno() instead, or see fileno.

  • floor

    This is identical to the C function floor() , returning the largest integer value less than or equal to the numerical argument.

  • fmod

    This is identical to the C function fmod() .

    1. $r = fmod($x, $y);

    It returns the remainder $r = $x - $n*$y , where $n = trunc($x/$y) . The $r has the same sign as $x and magnitude (absolute value) less than the magnitude of $y .

  • fopen

    Use method IO::File::open() instead, or see open.

  • fork

    This is identical to Perl's builtin fork() function for duplicating the current process, see fork and perlfork if you are in Windows.

  • fpathconf

    Retrieves the value of a configurable limit on a file or directory. This uses file descriptors such as those obtained by calling POSIX::open .

    The following will determine the maximum length of the longest allowable pathname on the filesystem which holds /var/foo.

    1. $fd = POSIX::open( "/var/foo", &POSIX::O_RDONLY );
    2. $path_max = POSIX::fpathconf( $fd, &POSIX::_PC_PATH_MAX );

    Returns undef on failure.

  • fprintf

    fprintf() is C-specific, see printf instead.

  • fputc

    fputc() is C-specific, see print instead.

  • fputs

    fputs() is C-specific, see print instead.

  • fread

    fread() is C-specific, see read instead.

  • free

    free() is C-specific. Perl does memory management transparently.

  • freopen

    freopen() is C-specific, see open instead.

  • frexp

    Return the mantissa and exponent of a floating-point number.

    1. ($mantissa, $exponent) = POSIX::frexp( 1.234e56 );
  • fscanf

    fscanf() is C-specific, use <> and regular expressions instead.

  • fseek

    Use method IO::Seekable::seek() instead, or see seek.

  • fsetpos

    Use method IO::Seekable::setpos() instead, or seek seek.

  • fstat

    Get file status. This uses file descriptors such as those obtained by calling POSIX::open . The data returned is identical to the data from Perl's builtin stat function.

    1. $fd = POSIX::open( "foo", &POSIX::O_RDONLY );
    2. @stats = POSIX::fstat( $fd );
  • fsync

    Use method IO::Handle::sync() instead.

  • ftell

    Use method IO::Seekable::tell() instead, or see tell.

  • fwrite

    fwrite() is C-specific, see print instead.

  • getc

    This is identical to Perl's builtin getc() function, see getc.

  • getchar

    Returns one character from STDIN. Identical to Perl's getc(), see getc.

  • getcwd

    Returns the name of the current working directory. See also Cwd.

  • getegid

    Returns the effective group identifier. Similar to Perl' s builtin variable $( , see $EGID in perlvar.

  • getenv

    Returns the value of the specified environment variable. The same information is available through the %ENV array.

  • geteuid

    Returns the effective user identifier. Identical to Perl's builtin $> variable, see $EUID in perlvar.

  • getgid

    Returns the user's real group identifier. Similar to Perl's builtin variable $) , see $GID in perlvar.

  • getgrgid

    This is identical to Perl's builtin getgrgid() function for returning group entries by group identifiers, see getgrgid.

  • getgrnam

    This is identical to Perl's builtin getgrnam() function for returning group entries by group names, see getgrnam.

  • getgroups

    Returns the ids of the user's supplementary groups. Similar to Perl's builtin variable $) , see $GID in perlvar.

  • getlogin

    This is identical to Perl's builtin getlogin() function for returning the user name associated with the current session, see getlogin.

  • getpgrp

    This is identical to Perl's builtin getpgrp() function for returning the process group identifier of the current process, see getpgrp.

  • getpid

    Returns the process identifier. Identical to Perl's builtin variable $$ , see $PID in perlvar.

  • getppid

    This is identical to Perl's builtin getppid() function for returning the process identifier of the parent process of the current process , see getppid.

  • getpwnam

    This is identical to Perl's builtin getpwnam() function for returning user entries by user names, see getpwnam.

  • getpwuid

    This is identical to Perl's builtin getpwuid() function for returning user entries by user identifiers, see getpwuid.

  • gets

    Returns one line from STDIN , similar to <>, also known as the readline() function, see readline.

    NOTE: if you have C programs that still use gets() , be very afraid. The gets() function is a source of endless grief because it has no buffer overrun checks. It should never be used. The fgets() function should be preferred instead.

  • getuid

    Returns the user's identifier. Identical to Perl's builtin $< variable, see $UID in perlvar.

  • gmtime

    This is identical to Perl's builtin gmtime() function for converting seconds since the epoch to a date in Greenwich Mean Time, see gmtime.

  • isalnum

    This is identical to the C function, except that it can apply to a single character or to a whole string. Note that locale settings may affect what characters are considered isalnum . Does not work on Unicode characters code point 256 or higher. Consider using regular expressions and the /[[:alnum:]]/ construct instead, or possibly the /\w/ construct.

  • isalpha

    This is identical to the C function, except that it can apply to a single character or to a whole string. Note that locale settings may affect what characters are considered isalpha . Does not work on Unicode characters code point 256 or higher. Consider using regular expressions and the /[[:alpha:]]/ construct instead.

  • isatty

    Returns a boolean indicating whether the specified filehandle is connected to a tty. Similar to the -t operator, see -X.

  • iscntrl

    This is identical to the C function, except that it can apply to a single character or to a whole string. Note that locale settings may affect what characters are considered iscntrl . Does not work on Unicode characters code point 256 or higher. Consider using regular expressions and the /[[:cntrl:]]/ construct instead.

  • isdigit

    This is identical to the C function, except that it can apply to a single character or to a whole string. Note that locale settings may affect what characters are considered isdigit (unlikely, but still possible). Does not work on Unicode characters code point 256 or higher. Consider using regular expressions and the /[[:digit:]]/ construct instead, or the /\d/ construct.

  • isgraph

    This is identical to the C function, except that it can apply to a single character or to a whole string. Note that locale settings may affect what characters are considered isgraph . Does not work on Unicode characters code point 256 or higher. Consider using regular expressions and the /[[:graph:]]/ construct instead.

  • islower

    This is identical to the C function, except that it can apply to a single character or to a whole string. Note that locale settings may affect what characters are considered islower . Does not work on Unicode characters code point 256 or higher. Consider using regular expressions and the /[[:lower:]]/ construct instead. Do not use /[a-z]/ .

  • isprint

    This is identical to the C function, except that it can apply to a single character or to a whole string. Note that locale settings may affect what characters are considered isprint . Does not work on Unicode characters code point 256 or higher. Consider using regular expressions and the /[[:print:]]/ construct instead.

  • ispunct

    This is identical to the C function, except that it can apply to a single character or to a whole string. Note that locale settings may affect what characters are considered ispunct . Does not work on Unicode characters code point 256 or higher. Consider using regular expressions and the /[[:punct:]]/ construct instead.

  • isspace

    This is identical to the C function, except that it can apply to a single character or to a whole string. Note that locale settings may affect what characters are considered isspace . Does not work on Unicode characters code point 256 or higher. Consider using regular expressions and the /[[:space:]]/ construct instead, or the /\s/ construct. (Note that /\s/ and /[[:space:]]/ are slightly different in that /[[:space:]]/ can normally match a vertical tab, while /\s/ does not.)

  • isupper

    This is identical to the C function, except that it can apply to a single character or to a whole string. Note that locale settings may affect what characters are considered isupper . Does not work on Unicode characters code point 256 or higher. Consider using regular expressions and the /[[:upper:]]/ construct instead. Do not use /[A-Z]/ .

  • isxdigit

    This is identical to the C function, except that it can apply to a single character or to a whole string. Note that locale settings may affect what characters are considered isxdigit (unlikely, but still possible). Does not work on Unicode characters code point 256 or higher. Consider using regular expressions and the /[[:xdigit:]]/ construct instead, or simply /[0-9a-f]/i .

  • kill

    This is identical to Perl's builtin kill() function for sending signals to processes (often to terminate them), see kill.

  • labs

    (For returning absolute values of long integers.) labs() is C-specific, see abs instead.

  • lchown

    This is identical to the C function, except the order of arguments is consistent with Perl's builtin chown() with the added restriction of only one path, not an list of paths. Does the same thing as the chown() function but changes the owner of a symbolic link instead of the file the symbolic link points to.

  • ldexp

    This is identical to the C function ldexp() for multiplying floating point numbers with powers of two.

    1. $x_quadrupled = POSIX::ldexp($x, 2);
  • ldiv

    (For computing dividends of long integers.) ldiv() is C-specific, use / and int() instead.

  • link

    This is identical to Perl's builtin link() function for creating hard links into files, see link.

  • localeconv

    Get numeric formatting information. Returns a reference to a hash containing the current locale formatting values.

    Here is how to query the database for the de (Deutsch or German) locale.

    1. my $loc = POSIX::setlocale( &POSIX::LC_ALL, "de" );
    2. print "Locale: \"$loc\"\n";
    3. my $lconv = POSIX::localeconv();
    4. foreach my $property (qw(
    5. decimal_point
    6. thousands_sep
    7. grouping
    8. int_curr_symbol
    9. currency_symbol
    10. mon_decimal_point
    11. mon_thousands_sep
    12. mon_grouping
    13. positive_sign
    14. negative_sign
    15. int_frac_digits
    16. frac_digits
    17. p_cs_precedes
    18. p_sep_by_space
    19. n_cs_precedes
    20. n_sep_by_space
    21. p_sign_posn
    22. n_sign_posn
    23. ))
    24. {
    25. printf qq(%s: "%s",\n), $property, $lconv->{$property};
    26. }
  • localtime

    This is identical to Perl's builtin localtime() function for converting seconds since the epoch to a date see localtime.

  • log

    This is identical to Perl's builtin log() function, returning the natural (e-based) logarithm of the numerical argument, see log.

  • log10

    This is identical to the C function log10() , returning the 10-base logarithm of the numerical argument. You can also use

    1. sub log10 { log($_[0]) / log(10) }

    or

    1. sub log10 { log($_[0]) / 2.30258509299405 }

    or

    1. sub log10 { log($_[0]) * 0.434294481903252 }
  • longjmp

    longjmp() is C-specific: use die instead.

  • lseek

    Move the file's read/write position. This uses file descriptors such as those obtained by calling POSIX::open .

    1. $fd = POSIX::open( "foo", &POSIX::O_RDONLY );
    2. $off_t = POSIX::lseek( $fd, 0, &POSIX::SEEK_SET );

    Returns undef on failure.

  • malloc

    malloc() is C-specific. Perl does memory management transparently.

  • mblen

    This is identical to the C function mblen() . Perl does not have any support for the wide and multibyte characters of the C standards, so this might be a rather useless function.

  • mbstowcs

    This is identical to the C function mbstowcs() . Perl does not have any support for the wide and multibyte characters of the C standards, so this might be a rather useless function.

  • mbtowc

    This is identical to the C function mbtowc() . Perl does not have any support for the wide and multibyte characters of the C standards, so this might be a rather useless function.

  • memchr

    memchr() is C-specific, see index instead.

  • memcmp

    memcmp() is C-specific, use eq instead, see perlop.

  • memcpy

    memcpy() is C-specific, use = , see perlop, or see substr.

  • memmove

    memmove() is C-specific, use = , see perlop, or see substr.

  • memset

    memset() is C-specific, use x instead, see perlop.

  • mkdir

    This is identical to Perl's builtin mkdir() function for creating directories, see mkdir.

  • mkfifo

    This is similar to the C function mkfifo() for creating FIFO special files.

    1. if (mkfifo($path, $mode)) { ....

    Returns undef on failure. The $mode is similar to the mode of mkdir(), see mkdir, though for mkfifo you must specify the $mode .

  • mktime

    Convert date/time info to a calendar time.

    Synopsis:

    1. mktime(sec, min, hour, mday, mon, year, wday = 0, yday = 0, isdst = -1)

    The month (mon ), weekday (wday ), and yearday (yday ) begin at zero. I.e. January is 0, not 1; Sunday is 0, not 1; January 1st is 0, not 1. The year (year ) is given in years since 1900. I.e. The year 1995 is 95; the year 2001 is 101. Consult your system's mktime() manpage for details about these and the other arguments.

    Calendar time for December 12, 1995, at 10:30 am.

    1. $time_t = POSIX::mktime( 0, 30, 10, 12, 11, 95 );
    2. print "Date = ", POSIX::ctime($time_t);

    Returns undef on failure.

  • modf

    Return the integral and fractional parts of a floating-point number.

    1. ($fractional, $integral) = POSIX::modf( 3.14 );
  • nice

    This is similar to the C function nice() , for changing the scheduling preference of the current process. Positive arguments mean more polite process, negative values more needy process. Normal user processes can only be more polite.

    Returns undef on failure.

  • offsetof

    offsetof() is C-specific, you probably want to see pack instead.

  • open

    Open a file for reading for writing. This returns file descriptors, not Perl filehandles. Use POSIX::close to close the file.

    Open a file read-only with mode 0666.

    1. $fd = POSIX::open( "foo" );

    Open a file for read and write.

    1. $fd = POSIX::open( "foo", &POSIX::O_RDWR );

    Open a file for write, with truncation.

    1. $fd = POSIX::open( "foo", &POSIX::O_WRONLY | &POSIX::O_TRUNC );

    Create a new file with mode 0640. Set up the file for writing.

    1. $fd = POSIX::open( "foo", &POSIX::O_CREAT | &POSIX::O_WRONLY, 0640 );

    Returns undef on failure.

    See also sysopen.

  • opendir

    Open a directory for reading.

    1. $dir = POSIX::opendir( "/var" );
    2. @files = POSIX::readdir( $dir );
    3. POSIX::closedir( $dir );

    Returns undef on failure.

  • pathconf

    Retrieves the value of a configurable limit on a file or directory.

    The following will determine the maximum length of the longest allowable pathname on the filesystem which holds /var.

    1. $path_max = POSIX::pathconf( "/var", &POSIX::_PC_PATH_MAX );

    Returns undef on failure.

  • pause

    This is similar to the C function pause() , which suspends the execution of the current process until a signal is received.

    Returns undef on failure.

  • perror

    This is identical to the C function perror() , which outputs to the standard error stream the specified message followed by ": " and the current error string. Use the warn() function and the $! variable instead, see warn and $ERRNO in perlvar.

  • pipe

    Create an interprocess channel. This returns file descriptors like those returned by POSIX::open .

    1. my ($read, $write) = POSIX::pipe();
    2. POSIX::write( $write, "hello", 5 );
    3. POSIX::read( $read, $buf, 5 );

    See also pipe.

  • pow

    Computes $x raised to the power $exponent .

    1. $ret = POSIX::pow( $x, $exponent );

    You can also use the ** operator, see perlop.

  • printf

    Formats and prints the specified arguments to STDOUT. See also printf.

  • putc

    putc() is C-specific, see print instead.

  • putchar

    putchar() is C-specific, see print instead.

  • puts

    puts() is C-specific, see print instead.

  • qsort

    qsort() is C-specific, see sort instead.

  • raise

    Sends the specified signal to the current process. See also kill and the $$ in $PID in perlvar.

  • rand

    rand() is non-portable, see rand instead.

  • read

    Read from a file. This uses file descriptors such as those obtained by calling POSIX::open . If the buffer $buf is not large enough for the read then Perl will extend it to make room for the request.

    1. $fd = POSIX::open( "foo", &POSIX::O_RDONLY );
    2. $bytes = POSIX::read( $fd, $buf, 3 );

    Returns undef on failure.

    See also sysread.

  • readdir

    This is identical to Perl's builtin readdir() function for reading directory entries, see readdir.

  • realloc

    realloc() is C-specific. Perl does memory management transparently.

  • remove

    This is identical to Perl's builtin unlink() function for removing files, see unlink.

  • rename

    This is identical to Perl's builtin rename() function for renaming files, see rename.

  • rewind

    Seeks to the beginning of the file.

  • rewinddir

    This is identical to Perl's builtin rewinddir() function for rewinding directory entry streams, see rewinddir.

  • rmdir

    This is identical to Perl's builtin rmdir() function for removing (empty) directories, see rmdir.

  • scanf

    scanf() is C-specific, use <> and regular expressions instead, see perlre.

  • setgid

    Sets the real group identifier and the effective group identifier for this process. Similar to assigning a value to the Perl's builtin $) variable, see $EGID in perlvar, except that the latter will change only the real user identifier, and that the setgid() uses only a single numeric argument, as opposed to a space-separated list of numbers.

  • setjmp

    setjmp() is C-specific: use eval {} instead, see eval.

  • setlocale

    Modifies and queries program's locale. The following examples assume

    1. use POSIX qw(setlocale LC_ALL LC_CTYPE);

    has been issued.

    The following will set the traditional UNIX system locale behavior (the second argument "C" ).

    1. $loc = setlocale( LC_ALL, "C" );

    The following will query the current LC_CTYPE category. (No second argument means 'query'.)

    1. $loc = setlocale( LC_CTYPE );

    The following will set the LC_CTYPE behaviour according to the locale environment variables (the second argument "" ). Please see your systems setlocale(3) documentation for the locale environment variables' meaning or consult perllocale.

    1. $loc = setlocale( LC_CTYPE, "" );

    The following will set the LC_COLLATE behaviour to Argentinian Spanish. NOTE: The naming and availability of locales depends on your operating system. Please consult perllocale for how to find out which locales are available in your system.

    1. $loc = setlocale( LC_COLLATE, "es_AR.ISO8859-1" );
  • setpgid

    This is similar to the C function setpgid() for setting the process group identifier of the current process.

    Returns undef on failure.

  • setsid

    This is identical to the C function setsid() for setting the session identifier of the current process.

  • setuid

    Sets the real user identifier and the effective user identifier for this process. Similar to assigning a value to the Perl's builtin $< variable, see $UID in perlvar, except that the latter will change only the real user identifier.

  • sigaction

    Detailed signal management. This uses POSIX::SigAction objects for the action and oldaction arguments (the oldaction can also be just a hash reference). Consult your system's sigaction manpage for details, see also POSIX::SigRt .

    Synopsis:

    1. sigaction(signal, action, oldaction = 0)

    Returns undef on failure. The signal must be a number (like SIGHUP), not a string (like "SIGHUP"), though Perl does try hard to understand you.

    If you use the SA_SIGINFO flag, the signal handler will in addition to the first argument, the signal name, also receive a second argument, a hash reference, inside which are the following keys with the following semantics, as defined by POSIX/SUSv3:

    1. signo the signal number
    2. errno the error number
    3. code if this is zero or less, the signal was sent by
    4. a user process and the uid and pid make sense,
    5. otherwise the signal was sent by the kernel

    The following are also defined by POSIX/SUSv3, but unfortunately not very widely implemented:

    1. pid the process id generating the signal
    2. uid the uid of the process id generating the signal
    3. status exit value or signal for SIGCHLD
    4. band band event for SIGPOLL

    A third argument is also passed to the handler, which contains a copy of the raw binary contents of the siginfo structure: if a system has some non-POSIX fields, this third argument is where to unpack() them from.

    Note that not all siginfo values make sense simultaneously (some are valid only for certain signals, for example), and not all values make sense from Perl perspective, you should to consult your system's sigaction and possibly also siginfo documentation.

  • siglongjmp

    siglongjmp() is C-specific: use die instead.

  • sigpending

    Examine signals that are blocked and pending. This uses POSIX::SigSet objects for the sigset argument. Consult your system's sigpending manpage for details.

    Synopsis:

    1. sigpending(sigset)

    Returns undef on failure.

  • sigprocmask

    Change and/or examine calling process's signal mask. This uses POSIX::SigSet objects for the sigset and oldsigset arguments. Consult your system's sigprocmask manpage for details.

    Synopsis:

    1. sigprocmask(how, sigset, oldsigset = 0)

    Returns undef on failure.

    Note that you can't reliably block or unblock a signal from its own signal handler if you're using safe signals. Other signals can be blocked or unblocked reliably.

  • sigsetjmp

    sigsetjmp() is C-specific: use eval {} instead, see eval.

  • sigsuspend

    Install a signal mask and suspend process until signal arrives. This uses POSIX::SigSet objects for the signal_mask argument. Consult your system's sigsuspend manpage for details.

    Synopsis:

    1. sigsuspend(signal_mask)

    Returns undef on failure.

  • sin

    This is identical to Perl's builtin sin() function for returning the sine of the numerical argument, see sin. See also Math::Trig.

  • sinh

    This is identical to the C function sinh() for returning the hyperbolic sine of the numerical argument. See also Math::Trig.

  • sleep

    This is functionally identical to Perl's builtin sleep() function for suspending the execution of the current for process for certain number of seconds, see sleep. There is one significant difference, however: POSIX::sleep() returns the number of unslept seconds, while the CORE::sleep() returns the number of slept seconds.

  • sprintf

    This is similar to Perl's builtin sprintf() function for returning a string that has the arguments formatted as requested, see sprintf.

  • sqrt

    This is identical to Perl's builtin sqrt() function. for returning the square root of the numerical argument, see sqrt.

  • srand

    Give a seed the pseudorandom number generator, see srand.

  • sscanf

    sscanf() is C-specific, use regular expressions instead, see perlre.

  • stat

    This is identical to Perl's builtin stat() function for returning information about files and directories.

  • strcat

    strcat() is C-specific, use .= instead, see perlop.

  • strchr

    strchr() is C-specific, see index instead.

  • strcmp

    strcmp() is C-specific, use eq or cmp instead, see perlop.

  • strcoll

    This is identical to the C function strcoll() for collating (comparing) strings transformed using the strxfrm() function. Not really needed since Perl can do this transparently, see perllocale.

  • strcpy

    strcpy() is C-specific, use = instead, see perlop.

  • strcspn

    strcspn() is C-specific, use regular expressions instead, see perlre.

  • strerror

    Returns the error string for the specified errno. Identical to the string form of the $! , see $ERRNO in perlvar.

  • strftime

    Convert date and time information to string. Returns the string.

    Synopsis:

    1. strftime(fmt, sec, min, hour, mday, mon, year, wday = -1, yday = -1, isdst = -1)

    The month (mon ), weekday (wday ), and yearday (yday ) begin at zero. I.e. January is 0, not 1; Sunday is 0, not 1; January 1st is 0, not 1. The year (year ) is given in years since 1900. I.e., the year 1995 is 95; the year 2001 is 101. Consult your system's strftime() manpage for details about these and the other arguments.

    If you want your code to be portable, your format (fmt ) argument should use only the conversion specifiers defined by the ANSI C standard (C89, to play safe). These are aAbBcdHIjmMpSUwWxXyYZ% . But even then, the results of some of the conversion specifiers are non-portable. For example, the specifiers aAbBcpZ change according to the locale settings of the user, and both how to set locales (the locale names) and what output to expect are non-standard. The specifier c changes according to the timezone settings of the user and the timezone computation rules of the operating system. The Z specifier is notoriously unportable since the names of timezones are non-standard. Sticking to the numeric specifiers is the safest route.

    The given arguments are made consistent as though by calling mktime() before calling your system's strftime() function, except that the isdst value is not affected.

    The string for Tuesday, December 12, 1995.

    1. $str = POSIX::strftime( "%A, %B %d, %Y", 0, 0, 0, 12, 11, 95, 2 );
    2. print "$str\n";
  • strlen

    strlen() is C-specific, use length() instead, see length.

  • strncat

    strncat() is C-specific, use .= instead, see perlop.

  • strncmp

    strncmp() is C-specific, use eq instead, see perlop.

  • strncpy

    strncpy() is C-specific, use = instead, see perlop.

  • strpbrk

    strpbrk() is C-specific, use regular expressions instead, see perlre.

  • strrchr

    strrchr() is C-specific, see rindex instead.

  • strspn

    strspn() is C-specific, use regular expressions instead, see perlre.

  • strstr

    This is identical to Perl's builtin index() function, see index.

  • strtod

    String to double translation. Returns the parsed number and the number of characters in the unparsed portion of the string. Truly POSIX-compliant systems set $! ($ERRNO) to indicate a translation error, so clear $! before calling strtod. However, non-POSIX systems may not check for overflow, and therefore will never set $!.

    strtod should respect any POSIX setlocale() settings.

    To parse a string $str as a floating point number use

    1. $! = 0;
    2. ($num, $n_unparsed) = POSIX::strtod($str);

    The second returned item and $! can be used to check for valid input:

    1. if (($str eq '') || ($n_unparsed != 0) || $!) {
    2. die "Non-numeric input $str" . ($! ? ": $!\n" : "\n");
    3. }

    When called in a scalar context strtod returns the parsed number.

  • strtok

    strtok() is C-specific, use regular expressions instead, see perlre, or split.

  • strtol

    String to (long) integer translation. Returns the parsed number and the number of characters in the unparsed portion of the string. Truly POSIX-compliant systems set $! ($ERRNO) to indicate a translation error, so clear $! before calling strtol. However, non-POSIX systems may not check for overflow, and therefore will never set $!.

    strtol should respect any POSIX setlocale() settings.

    To parse a string $str as a number in some base $base use

    1. $! = 0;
    2. ($num, $n_unparsed) = POSIX::strtol($str, $base);

    The base should be zero or between 2 and 36, inclusive. When the base is zero or omitted strtol will use the string itself to determine the base: a leading "0x" or "0X" means hexadecimal; a leading "0" means octal; any other leading characters mean decimal. Thus, "1234" is parsed as a decimal number, "01234" as an octal number, and "0x1234" as a hexadecimal number.

    The second returned item and $! can be used to check for valid input:

    1. if (($str eq '') || ($n_unparsed != 0) || !$!) {
    2. die "Non-numeric input $str" . $! ? ": $!\n" : "\n";
    3. }

    When called in a scalar context strtol returns the parsed number.

  • strtoul

    String to unsigned (long) integer translation. strtoul() is identical to strtol() except that strtoul() only parses unsigned integers. See strtol for details.

    Note: Some vendors supply strtod() and strtol() but not strtoul(). Other vendors that do supply strtoul() parse "-1" as a valid value.

  • strxfrm

    String transformation. Returns the transformed string.

    1. $dst = POSIX::strxfrm( $src );

    Used in conjunction with the strcoll() function, see strcoll.

    Not really needed since Perl can do this transparently, see perllocale.

  • sysconf

    Retrieves values of system configurable variables.

    The following will get the machine's clock speed.

    1. $clock_ticks = POSIX::sysconf( &POSIX::_SC_CLK_TCK );

    Returns undef on failure.

  • system

    This is identical to Perl's builtin system() function, see system.

  • tan

    This is identical to the C function tan() , returning the tangent of the numerical argument. See also Math::Trig.

  • tanh

    This is identical to the C function tanh() , returning the hyperbolic tangent of the numerical argument. See also Math::Trig.

  • tcdrain

    This is similar to the C function tcdrain() for draining the output queue of its argument stream.

    Returns undef on failure.

  • tcflow

    This is similar to the C function tcflow() for controlling the flow of its argument stream.

    Returns undef on failure.

  • tcflush

    This is similar to the C function tcflush() for flushing the I/O buffers of its argument stream.

    Returns undef on failure.

  • tcgetpgrp

    This is identical to the C function tcgetpgrp() for returning the process group identifier of the foreground process group of the controlling terminal.

  • tcsendbreak

    This is similar to the C function tcsendbreak() for sending a break on its argument stream.

    Returns undef on failure.

  • tcsetpgrp

    This is similar to the C function tcsetpgrp() for setting the process group identifier of the foreground process group of the controlling terminal.

    Returns undef on failure.

  • time

    This is identical to Perl's builtin time() function for returning the number of seconds since the epoch (whatever it is for the system), see time.

  • times

    The times() function returns elapsed realtime since some point in the past (such as system startup), user and system times for this process, and user and system times used by child processes. All times are returned in clock ticks.

    1. ($realtime, $user, $system, $cuser, $csystem) = POSIX::times();

    Note: Perl's builtin times() function returns four values, measured in seconds.

  • tmpfile

    Use method IO::File::new_tmpfile() instead, or see File::Temp.

  • tmpnam

    Returns a name for a temporary file.

    1. $tmpfile = POSIX::tmpnam();

    For security reasons, which are probably detailed in your system's documentation for the C library tmpnam() function, this interface should not be used; instead see File::Temp.

  • tolower

    This is identical to the C function, except that it can apply to a single character or to a whole string. Consider using the lc() function, see lc, or the equivalent \L operator inside doublequotish strings.

  • toupper

    This is identical to the C function, except that it can apply to a single character or to a whole string. Consider using the uc() function, see uc, or the equivalent \U operator inside doublequotish strings.

  • ttyname

    This is identical to the C function ttyname() for returning the name of the current terminal.

  • tzname

    Retrieves the time conversion information from the tzname variable.

    1. POSIX::tzset();
    2. ($std, $dst) = POSIX::tzname();
  • tzset

    This is identical to the C function tzset() for setting the current timezone based on the environment variable TZ , to be used by ctime() , localtime(), mktime() , and strftime() functions.

  • umask

    This is identical to Perl's builtin umask() function for setting (and querying) the file creation permission mask, see umask.

  • uname

    Get name of current operating system.

    1. ($sysname, $nodename, $release, $version, $machine) = POSIX::uname();

    Note that the actual meanings of the various fields are not that well standardized, do not expect any great portability. The $sysname might be the name of the operating system, the $nodename might be the name of the host, the $release might be the (major) release number of the operating system, the $version might be the (minor) release number of the operating system, and the $machine might be a hardware identifier. Maybe.

  • ungetc

    Use method IO::Handle::ungetc() instead.

  • unlink

    This is identical to Perl's builtin unlink() function for removing files, see unlink.

  • utime

    This is identical to Perl's builtin utime() function for changing the time stamps of files and directories, see utime.

  • vfprintf

    vfprintf() is C-specific, see printf instead.

  • vprintf

    vprintf() is C-specific, see printf instead.

  • vsprintf

    vsprintf() is C-specific, see sprintf instead.

  • wait

    This is identical to Perl's builtin wait() function, see wait.

  • waitpid

    Wait for a child process to change state. This is identical to Perl's builtin waitpid() function, see waitpid.

    1. $pid = POSIX::waitpid( -1, POSIX::WNOHANG );
    2. print "status = ", ($? / 256), "\n";
  • wcstombs

    This is identical to the C function wcstombs() . Perl does not have any support for the wide and multibyte characters of the C standards, so this might be a rather useless function.

  • wctomb

    This is identical to the C function wctomb() . Perl does not have any support for the wide and multibyte characters of the C standards, so this might be a rather useless function.

  • write

    Write to a file. This uses file descriptors such as those obtained by calling POSIX::open .

    1. $fd = POSIX::open( "foo", &POSIX::O_WRONLY );
    2. $buf = "hello";
    3. $bytes = POSIX::write( $fd, $buf, 5 );

    Returns undef on failure.

    See also syswrite.

CLASSES

POSIX::SigAction

  • new

    Creates a new POSIX::SigAction object which corresponds to the C struct sigaction . This object will be destroyed automatically when it is no longer needed. The first parameter is the handler, a sub reference. The second parameter is a POSIX::SigSet object, it defaults to the empty set. The third parameter contains the sa_flags , it defaults to 0.

    1. $sigset = POSIX::SigSet->new(SIGINT, SIGQUIT);
    2. $sigaction = POSIX::SigAction->new( \&handler, $sigset, &POSIX::SA_NOCLDSTOP );

    This POSIX::SigAction object is intended for use with the POSIX::sigaction() function.

  • handler
  • mask
  • flags

    accessor functions to get/set the values of a SigAction object.

    1. $sigset = $sigaction->mask;
    2. $sigaction->flags(&POSIX::SA_RESTART);
  • safe

    accessor function for the "safe signals" flag of a SigAction object; see perlipc for general information on safe (a.k.a. "deferred") signals. If you wish to handle a signal safely, use this accessor to set the "safe" flag in the POSIX::SigAction object:

    1. $sigaction->safe(1);

    You may also examine the "safe" flag on the output action object which is filled in when given as the third parameter to POSIX::sigaction() :

    1. sigaction(SIGINT, $new_action, $old_action);
    2. if ($old_action->safe) {
    3. # previous SIGINT handler used safe signals
    4. }

POSIX::SigRt

  • %SIGRT

    A hash of the POSIX realtime signal handlers. It is an extension of the standard %SIG, the $POSIX::SIGRT{SIGRTMIN} is roughly equivalent to $SIG{SIGRTMIN}, but the right POSIX moves (see below) are made with the POSIX::SigSet and POSIX::sigaction instead of accessing the %SIG.

    You can set the %POSIX::SIGRT elements to set the POSIX realtime signal handlers, use delete and exists on the elements, and use scalar on the %POSIX::SIGRT to find out how many POSIX realtime signals there are available (SIGRTMAX - SIGRTMIN + 1, the SIGRTMAX is a valid POSIX realtime signal).

    Setting the %SIGRT elements is equivalent to calling this:

    1. sub new {
    2. my ($rtsig, $handler, $flags) = @_;
    3. my $sigset = POSIX::SigSet($rtsig);
    4. my $sigact = POSIX::SigAction->new($handler, $sigset, $flags);
    5. sigaction($rtsig, $sigact);
    6. }

    The flags default to zero, if you want something different you can either use local on $POSIX::SigRt::SIGACTION_FLAGS, or you can derive from POSIX::SigRt and define your own new() (the tied hash STORE method of the %SIGRT calls new($rtsig, $handler, $SIGACTION_FLAGS) , where the $rtsig ranges from zero to SIGRTMAX - SIGRTMIN + 1).

    Just as with any signal, you can use sigaction($rtsig, undef, $oa) to retrieve the installed signal handler (or, rather, the signal action).

    NOTE: whether POSIX realtime signals really work in your system, or whether Perl has been compiled so that it works with them, is outside of this discussion.

  • SIGRTMIN

    Return the minimum POSIX realtime signal number available, or undef if no POSIX realtime signals are available.

  • SIGRTMAX

    Return the maximum POSIX realtime signal number available, or undef if no POSIX realtime signals are available.

POSIX::SigSet

  • new

    Create a new SigSet object. This object will be destroyed automatically when it is no longer needed. Arguments may be supplied to initialize the set.

    Create an empty set.

    1. $sigset = POSIX::SigSet->new;

    Create a set with SIGUSR1.

    1. $sigset = POSIX::SigSet->new( &POSIX::SIGUSR1 );
  • addset

    Add a signal to a SigSet object.

    1. $sigset->addset( &POSIX::SIGUSR2 );

    Returns undef on failure.

  • delset

    Remove a signal from the SigSet object.

    1. $sigset->delset( &POSIX::SIGUSR2 );

    Returns undef on failure.

  • emptyset

    Initialize the SigSet object to be empty.

    1. $sigset->emptyset();

    Returns undef on failure.

  • fillset

    Initialize the SigSet object to include all signals.

    1. $sigset->fillset();

    Returns undef on failure.

  • ismember

    Tests the SigSet object to see if it contains a specific signal.

    1. if( $sigset->ismember( &POSIX::SIGUSR1 ) ){
    2. print "contains SIGUSR1\n";
    3. }

POSIX::Termios

  • new

    Create a new Termios object. This object will be destroyed automatically when it is no longer needed. A Termios object corresponds to the termios C struct. new() mallocs a new one, getattr() fills it from a file descriptor, and setattr() sets a file descriptor's parameters to match Termios' contents.

    1. $termios = POSIX::Termios->new;
  • getattr

    Get terminal control attributes.

    Obtain the attributes for stdin.

    1. $termios->getattr( 0 ) # Recommended for clarity.
    2. $termios->getattr()

    Obtain the attributes for stdout.

    1. $termios->getattr( 1 )

    Returns undef on failure.

  • getcc

    Retrieve a value from the c_cc field of a termios object. The c_cc field is an array so an index must be specified.

    1. $c_cc[1] = $termios->getcc(1);
  • getcflag

    Retrieve the c_cflag field of a termios object.

    1. $c_cflag = $termios->getcflag;
  • getiflag

    Retrieve the c_iflag field of a termios object.

    1. $c_iflag = $termios->getiflag;
  • getispeed

    Retrieve the input baud rate.

    1. $ispeed = $termios->getispeed;
  • getlflag

    Retrieve the c_lflag field of a termios object.

    1. $c_lflag = $termios->getlflag;
  • getoflag

    Retrieve the c_oflag field of a termios object.

    1. $c_oflag = $termios->getoflag;
  • getospeed

    Retrieve the output baud rate.

    1. $ospeed = $termios->getospeed;
  • setattr

    Set terminal control attributes.

    Set attributes immediately for stdout.

    1. $termios->setattr( 1, &POSIX::TCSANOW );

    Returns undef on failure.

  • setcc

    Set a value in the c_cc field of a termios object. The c_cc field is an array so an index must be specified.

    1. $termios->setcc( &POSIX::VEOF, 1 );
  • setcflag

    Set the c_cflag field of a termios object.

    1. $termios->setcflag( $c_cflag | &POSIX::CLOCAL );
  • setiflag

    Set the c_iflag field of a termios object.

    1. $termios->setiflag( $c_iflag | &POSIX::BRKINT );
  • setispeed

    Set the input baud rate.

    1. $termios->setispeed( &POSIX::B9600 );

    Returns undef on failure.

  • setlflag

    Set the c_lflag field of a termios object.

    1. $termios->setlflag( $c_lflag | &POSIX::ECHO );
  • setoflag

    Set the c_oflag field of a termios object.

    1. $termios->setoflag( $c_oflag | &POSIX::OPOST );
  • setospeed

    Set the output baud rate.

    1. $termios->setospeed( &POSIX::B9600 );

    Returns undef on failure.

  • Baud rate values

    B38400 B75 B200 B134 B300 B1800 B150 B0 B19200 B1200 B9600 B600 B4800 B50 B2400 B110

  • Terminal interface values

    TCSADRAIN TCSANOW TCOON TCIOFLUSH TCOFLUSH TCION TCIFLUSH TCSAFLUSH TCIOFF TCOOFF

  • c_cc field values

    VEOF VEOL VERASE VINTR VKILL VQUIT VSUSP VSTART VSTOP VMIN VTIME NCCS

  • c_cflag field values

    CLOCAL CREAD CSIZE CS5 CS6 CS7 CS8 CSTOPB HUPCL PARENB PARODD

  • c_iflag field values

    BRKINT ICRNL IGNBRK IGNCR IGNPAR INLCR INPCK ISTRIP IXOFF IXON PARMRK

  • c_lflag field values

    ECHO ECHOE ECHOK ECHONL ICANON IEXTEN ISIG NOFLSH TOSTOP

  • c_oflag field values

    OPOST

PATHNAME CONSTANTS

  • Constants

    _PC_CHOWN_RESTRICTED _PC_LINK_MAX _PC_MAX_CANON _PC_MAX_INPUT _PC_NAME_MAX _PC_NO_TRUNC _PC_PATH_MAX _PC_PIPE_BUF _PC_VDISABLE

POSIX CONSTANTS

  • Constants

    _POSIX_ARG_MAX _POSIX_CHILD_MAX _POSIX_CHOWN_RESTRICTED _POSIX_JOB_CONTROL _POSIX_LINK_MAX _POSIX_MAX_CANON _POSIX_MAX_INPUT _POSIX_NAME_MAX _POSIX_NGROUPS_MAX _POSIX_NO_TRUNC _POSIX_OPEN_MAX _POSIX_PATH_MAX _POSIX_PIPE_BUF _POSIX_SAVED_IDS _POSIX_SSIZE_MAX _POSIX_STREAM_MAX _POSIX_TZNAME_MAX _POSIX_VDISABLE _POSIX_VERSION

SYSTEM CONFIGURATION

  • Constants

    _SC_ARG_MAX _SC_CHILD_MAX _SC_CLK_TCK _SC_JOB_CONTROL _SC_NGROUPS_MAX _SC_OPEN_MAX _SC_PAGESIZE _SC_SAVED_IDS _SC_STREAM_MAX _SC_TZNAME_MAX _SC_VERSION

ERRNO

  • Constants

    E2BIG EACCES EADDRINUSE EADDRNOTAVAIL EAFNOSUPPORT EAGAIN EALREADY EBADF EBUSY ECHILD ECONNABORTED ECONNREFUSED ECONNRESET EDEADLK EDESTADDRREQ EDOM EDQUOT EEXIST EFAULT EFBIG EHOSTDOWN EHOSTUNREACH EINPROGRESS EINTR EINVAL EIO EISCONN EISDIR ELOOP EMFILE EMLINK EMSGSIZE ENAMETOOLONG ENETDOWN ENETRESET ENETUNREACH ENFILE ENOBUFS ENODEV ENOENT ENOEXEC ENOLCK ENOMEM ENOPROTOOPT ENOSPC ENOSYS ENOTBLK ENOTCONN ENOTDIR ENOTEMPTY ENOTSOCK ENOTTY ENXIO EOPNOTSUPP EPERM EPFNOSUPPORT EPIPE EPROCLIM EPROTONOSUPPORT EPROTOTYPE ERANGE EREMOTE ERESTART EROFS ESHUTDOWN ESOCKTNOSUPPORT ESPIPE ESRCH ESTALE ETIMEDOUT ETOOMANYREFS ETXTBSY EUSERS EWOULDBLOCK EXDEV

FCNTL

  • Constants

    FD_CLOEXEC F_DUPFD F_GETFD F_GETFL F_GETLK F_OK F_RDLCK F_SETFD F_SETFL F_SETLK F_SETLKW F_UNLCK F_WRLCK O_ACCMODE O_APPEND O_CREAT O_EXCL O_NOCTTY O_NONBLOCK O_RDONLY O_RDWR O_TRUNC O_WRONLY

FLOAT

  • Constants

    DBL_DIG DBL_EPSILON DBL_MANT_DIG DBL_MAX DBL_MAX_10_EXP DBL_MAX_EXP DBL_MIN DBL_MIN_10_EXP DBL_MIN_EXP FLT_DIG FLT_EPSILON FLT_MANT_DIG FLT_MAX FLT_MAX_10_EXP FLT_MAX_EXP FLT_MIN FLT_MIN_10_EXP FLT_MIN_EXP FLT_RADIX FLT_ROUNDS LDBL_DIG LDBL_EPSILON LDBL_MANT_DIG LDBL_MAX LDBL_MAX_10_EXP LDBL_MAX_EXP LDBL_MIN LDBL_MIN_10_EXP LDBL_MIN_EXP

LIMITS

  • Constants

    ARG_MAX CHAR_BIT CHAR_MAX CHAR_MIN CHILD_MAX INT_MAX INT_MIN LINK_MAX LONG_MAX LONG_MIN MAX_CANON MAX_INPUT MB_LEN_MAX NAME_MAX NGROUPS_MAX OPEN_MAX PATH_MAX PIPE_BUF SCHAR_MAX SCHAR_MIN SHRT_MAX SHRT_MIN SSIZE_MAX STREAM_MAX TZNAME_MAX UCHAR_MAX UINT_MAX ULONG_MAX USHRT_MAX

LOCALE

  • Constants

    LC_ALL LC_COLLATE LC_CTYPE LC_MONETARY LC_NUMERIC LC_TIME

MATH

  • Constants

    HUGE_VAL

SIGNAL

  • Constants

    SA_NOCLDSTOP SA_NOCLDWAIT SA_NODEFER SA_ONSTACK SA_RESETHAND SA_RESTART SA_SIGINFO SIGABRT SIGALRM SIGCHLD SIGCONT SIGFPE SIGHUP SIGILL SIGINT SIGKILL SIGPIPE SIGQUIT SIGSEGV SIGSTOP SIGTERM SIGTSTP SIGTTIN SIGTTOU SIGUSR1 SIGUSR2 SIG_BLOCK SIG_DFL SIG_ERR SIG_IGN SIG_SETMASK SIG_UNBLOCK

STAT

  • Constants

    S_IRGRP S_IROTH S_IRUSR S_IRWXG S_IRWXO S_IRWXU S_ISGID S_ISUID S_IWGRP S_IWOTH S_IWUSR S_IXGRP S_IXOTH S_IXUSR

  • Macros

    S_ISBLK S_ISCHR S_ISDIR S_ISFIFO S_ISREG

STDLIB

  • Constants

    EXIT_FAILURE EXIT_SUCCESS MB_CUR_MAX RAND_MAX

STDIO

  • Constants

    BUFSIZ EOF FILENAME_MAX L_ctermid L_cuserid L_tmpname TMP_MAX

TIME

  • Constants

    CLK_TCK CLOCKS_PER_SEC

UNISTD

  • Constants

    R_OK SEEK_CUR SEEK_END SEEK_SET STDIN_FILENO STDOUT_FILENO STDERR_FILENO W_OK X_OK

WAIT

  • Constants

    WNOHANG WUNTRACED

    • WNOHANG

      Do not suspend the calling process until a child process changes state but instead return immediately.

    • WUNTRACED

      Catch stopped child processes.

  • Macros

    WIFEXITED WEXITSTATUS WIFSIGNALED WTERMSIG WIFSTOPPED WSTOPSIG

    • WIFEXITED

      WIFEXITED(${^CHILD_ERROR_NATIVE}) returns true if the child process exited normally (exit() or by falling off the end of main() )

    • WEXITSTATUS

      WEXITSTATUS(${^CHILD_ERROR_NATIVE}) returns the normal exit status of the child process (only meaningful if WIFEXITED(${^CHILD_ERROR_NATIVE}) is true)

    • WIFSIGNALED

      WIFSIGNALED(${^CHILD_ERROR_NATIVE}) returns true if the child process terminated because of a signal

    • WTERMSIG

      WTERMSIG(${^CHILD_ERROR_NATIVE}) returns the signal the child process terminated for (only meaningful if WIFSIGNALED(${^CHILD_ERROR_NATIVE}) is true)

    • WIFSTOPPED

      WIFSTOPPED(${^CHILD_ERROR_NATIVE}) returns true if the child process is currently stopped (can happen only if you specified the WUNTRACED flag to waitpid())

    • WSTOPSIG

      WSTOPSIG(${^CHILD_ERROR_NATIVE}) returns the signal the child process was stopped for (only meaningful if WIFSTOPPED(${^CHILD_ERROR_NATIVE}) is true)