Perl Programming/Function reference
String functionsEdit
chompEdit
ActionEdit
Removes the last characters from a string only if they're recognized as a record separator (e.g. a newline character)
ReturnsEdit
?
SyntaxEdit
chomp($String = $_);
ExampleEdit
chomp; # removes the last character from $_ if it is a record separator chomp(); # (same) chomp($String); # removes the last character from $String if it is a record separator
See alsoEdit
- chop - To remove the last character from a string
chopEdit
ActionEdit
Removes the last character from a string regardless
ReturnsEdit
?
SyntaxEdit
chop($String = $_);
ExampleEdit
chop; # removes the last character from $_ chop(); # (same) chop($String); # removes the last character from $String
See alsoEdit
- chomp - To remove the last character from a string if it is a record seperator
Removes the last character from a string (e.g. removes the newline characters when reading from a file)
chrEdit
print chr(65); # Prints a capital A
Gets an ASCII character, given it's code
cryptEdit
# One-way hash function my $HashedWord = crypt($Word, $Salt);
(See also MD5 )
The salt string needs only be two characters long, and provides a way of randomising the hash, such that the same word can produce several different hashes, if used with different values of $Salt;!
hexEdit
print hex(11); # Prints B
Converts a number to hexadecimal
Other way around - converts hex to number: print hex(11); # prints 17
you can use
print sprintf("%X",11); # Prints B
indexEdit
Search for one string within another (see rindex to search from end-to-start).
$Result = index($Haystack, $Needle); $Result = index($Haystack, $Needle, $StartPosition);
index("Some text", "bleh"); # Returns -1 (not found)
index("Some text", "Some"); # Returns 0 (first character)
index("Some text", "text"); # Returns 5 (sixth character)
The special variable $[ always gets added to the return value, but $[ is normally 0, and the manual recommends leaving it at 0.
lcEdit
$Lowercase = lc($String);
Converts a string to lower-case
lcfirstEdit
Converts the first character of a string to lowercase
lengthEdit
print "String is " . length($String) . " characters long\n";
Returns the length of a string
octEdit
print oct(8); # Prints 10
Converts a number to octal
ordEdit
Converts a character to its number.
print ord("A"); # prints 65
packEdit
Takes a list and converts it into a string using a supplied set of rules.
my $String = pack($Template, @ListOfNumbers);
my $String = pack("CCCC",65,66,67,68); # Result: "ABCD"
$Template can be made up of:
a A string with arbitrary binary data, will be null padded. A An ascii string, will be space padded. Z A null terminated (asciz) string, will be null padded.
b A bit string (ascending bit order inside each byte, like vec()). B A bit string (descending bit order inside each byte). h A hex string (low nybble first). H A hex string (high nybble first).
c A signed char value. C An unsigned char value. Only does bytes. See U for Unicode.
s A signed short value. S An unsigned short value. (Exactly 16 bits unless you use the ! suffix)
i A signed integer value. I An unsigned integer value. (At least 32 bits wide, machine-dependent)
l A signed long value. L An unsigned long value. (Exactly 32 bits unless you use the ! suffix)
n An unsigned short in "network" (big-endian) order. N An unsigned long in "network" (big-endian) order. v An unsigned short in "VAX" (little-endian) order. V An unsigned long in "VAX" (little-endian) order. (Exactly 16 bits and 32 bits respectively)
q A signed quad (64-bit) value. Q An unsigned quad value. (Only available if your system supports 64-bit integers and Perl has been compiled to support them)
f A single-precision float in the native format. d A double-precision float in the native format.
p A pointer to a null-terminated string. P A pointer to a structure (fixed-length string).
u A uuencoded string. U A Unicode character number. Encodes to UTF-8 internally.
w A BER compressed integer. Its bytes represent an unsigned integer in base 128, most significant digit first, with as few digits as possible. Bit eight (the high bit) is set on each byte except the last.
x A null byte. X Back up a byte. @ Null fill to absolute position.
Each letter may optionally be followed by a number giving a repeat count.
The integer types s, S, l, and L may be immediately followed by a ! suffix to signify native shorts or longs
reverseEdit
Reverses a string (in scalar context) or a list (in list context):
my @ReversedList = reverse(@List);
# As commonly seen in Perl programs:
foreach( reverse( sort( @List )))
{
...
}
my $ReversedString = reverse($String);
my @List = ("One ", "two ", "three...");
my $ReversedListAsString = reverse(@List); # Prints "...eerht owt enO"
rindexEdit
Search for one string within another, starting at the end of the string.
$Result = rindex($Haystack, $Needle); $Result = rindex($Haystack, $Needle, $StartPosition);
rindex("Some text", "bleh"); # Returns -1 (not found)
rindex("Some text", "Some"); # Returns 0 (first character)
rindex("abbbbb", "b"); # Returns 5 (first "b" found, when starting at the end)
sprintfEdit
Prints a formatted string:
my $Text = sprintf("%d/%d is %08.5f", 1, 3, 1/3); # Result: "10/3 is 003.33333"
sprintf("Character: %c", 65);
sprintf("String %s", "Hello");
sprintf("Signed integer: %d", 15);
sprintf("Unsigned integer: %u", 15);
sprintf("Unsigned int (in octal): %o", 15);
sprintf("Unisgned int (in hex): %x", 15); # Use %X to get upper-case output
sprintf("Binary number: %b", 15);
sprintf("Scientific notation: %e", 5000); # Use %E to get upper-case output
sprintf("Floating point number: %f", 1/3); # 0.3333333
sprintf("Floating point number: %g", 1/3); # Decides between scientific and float. %G is uppercase
sprintf("Pointer: %p", $Variable);
Use %% to get a percent-sign.
Use %n to request the number of characters written so far, and put it into the next variable in the list. You may want to check that user-supplied formatting rules don't contain this code.
sprintf("%02d", $Minutes); # Forces leading zeros to make the string two characters long
sprintf("%1.5f", $Number); # Limits the number of decimal places
substrEdit
Return part of a string (a substring)
Format: substr string start-position length
- start-position is zero-based.
- A negative number starts from the end of the string.
$FirstLetter = substr($Text, 0, 1); # First letter $First3Letters = substr($Text, 0, 3); # First three letters $Last3Letters = substr($Text, -3); # Last three letters
You can use substr on the left side of an assignment statement to change part of a string. This can actually shorten or lengthen the string.
$text = 'cat dog'; substr ($mystring, 3, 1) = ' and '; # $text now contains 'cat and dog'
ucEdit
$Uppercase = uc($String);
Converts a string to upper-case
ucfirstEdit
Converts the first character of a string to uppercase
Numeric functionsEdit
absEdit
Returns the absolute (positive) value of a number
$Number = abs(-100); # Returns 100;
atan2Edit
# Converts cartesian(x,y) coordinates into an angle $Number = atan2($Y, $X);
cosEdit
# Returns the cosine of an angle (radians) $Number = cos($Angle); # Cosine = Adjacent/Hypotenuse
expEdit
# Raises e to a specified power $Number = exp(2); # Returns e^2
e ≈ 2.71828183 more about e
hexEdit
# Interprets a string as hexidecimal, and returns its value
$Number = hex("10"); # Returns 16
$Number = hex("0xFF"); # Returns 255
intEdit
Rounds a number towards zero, returning an integer
$Number = int(-1.6); # Returns -1 $Number = int(0.9); # Returns 0 $Number = int(28.54); # Returns 28
logEdit
# Returns the natural logarithm of a number $Number = log(2.71828183); # Returns 1 $Number = exp(log($X)); # Returns $X $Number = log($X)/log(10); # Returns log10($X). Alternately, you can use the log10() function in the POSIX module $Number = log($X)/log(15); # Returns log to the base 15 of $X
octEdit
# Interprets a string as octal, and returns its value
$Number = oct("10"); # Returns 8
$Number = oct("21"); # Returns 17
randEdit
# Gets a random number (may automatically call srand() if that's not been done) $Number = rand(); # Returns a random number from 0 to 1 $Number = int(rand(800)); # Returns a random integer from 0 to 799 $Number = 1 + int(rand(999)); # Returns a random integer from 1 to 999
sinEdit
# Returns the sine of an angle (radians) $Number = sin($Angle); # Sine = Opposite/Hypotenuse
sqrtEdit
# Returns the square-root of a number $Number = sqrt(4); # Returns 2 $Number = sqrt($X ** 2 + $Y ** 2); # Returns the diagonal distance across a $X x $Y rectangle
See the Math::Complex module, if you need to take roots of negative numbers.
srandEdit
# Seeds (sets-up) the random-number generator srand();
Version-dependent, and older versions of Perl are not guaranteed to have a good seed value. See the Math::TrulyRandom module for more possibilities. The current version of Perl uses the urandom device if it's available.
Array functionsEdit
popEdit
$LastElement = pop(@MyArray);
Take the last element from an array.
pushEdit
push(@MyArray, "Last element"); push(@MyArray, "several", "more", "elements");
Push a list of elements onto the end of an array.
shiftEdit
shift(@MyArray); # Delete the first element $FirstElement = shift(@MyArray); # Delete the first element, load it into $FirstElement instead
Take the first element out of an array.
spliceEdit
# Removes elements from an array, optionally replacing them with a new array splice(@Array); # Removes all elements from array splice(@Array, 10); # Removes from element 10 to the end of the array splice(@Array, -10); # Removes the last 10 elements of the array splice(@Array, 0, 10); # Removes the first 10 elements of the array @NewArray = splice(@Array, 0, 10); # Removes the first 10 elements of the array and returns those 10 items splice(@Array, 0, 10, @Array2); # Replaces the first 10 elements of the array with Array2
unshiftEdit
unshift(@MyArray, "New element"); unshift(@MyArray, "several", "more", "elements");
Add a list of elements onto the beginning of an array.
List functionsEdit
grepEdit
# Returns a list of elements for which an expression is true @TextFiles = grep(/\.txt$/, @AllFiles); $NumberOfTextFiles = grep(/\.txt$/, @AllFiles);
# Can use a block of code instead of an expression
@TextFiles = grep({return(substr($_, -3) eq "txt");}, @AllFiles);
joinEdit
# Joins the items of a list into a single string $OneItemPerLine = join( "\n", @List); $EverythingBunchedTogether = join( "", @List); $Filename = join( "/", ($Directory, $Subdirectory, $Filename));
mapEdit
# Evaluates a block of code for each item in a list, and returns
# a list of the results
@UppercaseList = map(uc, @List);
@Numbers = map {"Number $_"} 1..100;
reverseEdit
# Reverses the order of a list
@ReversedList = reverse(@List);
# In scalar context, concatenates the list and then reverses the string
$ReversedString = reverse('foo','bar','baz'); # gives 'zabraboof'
sortEdit
# Sorts the elements in a list
@AsciiSort = sort(@RandomList);
@AsciiSort = sort @RandomList;
foreach $Item (sort @RandomList)
{...}
# Can specify a function to decide the sort order
@CaseInsensitiveSort = sort {uc($a) cmp uc($b)} @RandomList;
@NumericSort = sort {$a <=> $b} @RandomList;
@CustomSort = sort custom_function_name @RandomList;
unpackEdit
Unpacks a string into a list - see the templates available for the pack() function for details
Associative array functionsEdit
deleteEdit
# Remove an element from a hash
%h = ('a'=>1, 'cow'=>'moo', 'b'=>2);
delete $h{cow};
# %h now contains ('a'=>1, 'b'=>2)
eachEdit
# Return the 'next' key/value pair (in a random order)
while (($key, $value) = each (%hash)) {
print "$key => $value\n";
}
existsEdit
# Tests whether or not a key exists in a hash (even if the value for that key is undef)
if (exists $hash{$key}) {
print "\%hash contains a value for key '$key'\n";
}
keysEdit
# Returns a list of all keys from the hash, in same 'random' order as each
foreach $key (keys %hash) {
print "$key => $hash{$key}\n";
}
valuesEdit
# Returns a list of all values from the hash, in same 'random' order as keys
foreach $value (values %hash) {
print "\%hash contains a value '$value'\n";
}
Input and output functionsEdit
binmodeEdit
closeEdit
# closes a filehandle when it is no longer needed close(STDERR); # hide debugging info from the user
closedirEdit
# Close a directory open by opendir closedir(DIRHANDLE);
dbmcloseEdit
dbmopenEdit
dieEdit
Exits the program, printing to "STDERR" the first parameter and the current file and line. Used to trap errors.
die "Error: $!\n" unless chdir '/';
eofEdit
eof FILEHANDLE
eof()
eof
This function returns true, if the next read on FILEHANDLE would return end-of-file, or if FILEHANDLE is not open. FILEHANDLE may be an expression whose value gives the real filehandle, or a reference to a filehandle object of some sort. An eof without an argument returns the end-of-file status for the last file read. An eof() with empty parentheses () tests the ARGV filehandle (most commonly seen as the null filehandle in <>). Therefore, inside a while (<>) loop, an eof() with parentheses will detect the end of only the last of a group of files. Use eof (without the parentheses) to test each file in a while (<>) loop. For example, the following code inserts dashes just before the last line of the last file:
while (<>) {
if (eof()) {
print "-" x 30, "\n";
}
print;
}
On the other hand, this script resets line numbering on each input file:
# reset line numbering on each input file
while (<>) {
next if /^\s*#/; # skip comments
print "$.\t$_";
} continue {
close ARGV if eof; # Not eof()!
}
Like "$" in a sed program, eof tends to show up in line number ranges. Here's a script that prints lines from /pattern/ to end of each input file:
while (<>) {
print if /pattern/ .. eof;
}
Here, the flip-flop operator (..) evaluates the pattern match for each line. Until the pattern matches, the operator returns false. When it finally matches, the operator starts returning true, causing the lines to be printed. When the eof operator finally returns true (at the end of the file being examined), the flip-flop operator resets, and starts returning false again for the next file in @ARGV
filenoEdit
flockEdit
formatEdit
getcEdit
printEdit
Prints the parameters given.
Discussed in the following sections:
printfEdit
readEdit
readdirEdit
rewinddirEdit
seekEdit
seekdirEdit
selectEdit
syscallEdit
sysreadEdit
sysseekEdit
syswriteEdit
tellEdit
telldirEdit
truncateEdit
warnEdit
writeEdit
Functions for working with fixed length recordsEdit
packEdit
See the entry for pack further up the page
readEdit
# Reads data from a file-handle read(FILEHANDLE, $StoreDataHere, $NumberBytes);
# Returns the number of bytes read $NumberBytesRead = read(FILEHANDLE, $StoreDataHere, $NumberBytes);
# Optional offset is applied when the data is stored (not when reading) read(FILEHANDLE, $StoreDataHere, $NumberBytes, Offset);
syscallEdit
# Runs a system command syscall( $Command, $Argument1, $Argument2, $Argument3);
# (maximum 14 arguments) $ReturnValue = syscall($Command);
sysreadEdit
syswriteEdit
unpackEdit
# See the pack function for details (unpack does the opposite!) unpack($Template, $BinaryData);
vecEdit
Filesystem functionsEdit
-XEdit
if (-r $FullFilename) // File is readable by effective uid/gid. if (-w $FullFilename) // File is writable by effective uid/gid. if (-x $FullFilename) // File is executable by effective uid/gid. if (-o $FullFilename) // File is owned by effective uid.
if (-R $FullFilename) // File is readable by real uid/gid. if (-W $FullFilename) // File is writable by real uid/gid. if (-X $FullFilename) // File is executable by real uid/gid. if (-O $FullFilename) // File is owned by real uid.
if (-e $FullFilename) // File exists. if (-z $FullFilename) // File has zero size. if (-s $FullFilename) // File has nonzero size (returns size).
if (-f $FullFilename) // File is a plain file. if (-d $FullFilename) // File is a directory. if (-l $FullFilename) // File is a symbolic link. if (-p $FullFilename) // File is a named pipe (FIFO), or Filehandle is a pipe. if (-S $FullFilename) // File is a socket. if (-b $FullFilename) // File is a block special file. if (-c $FullFilename) // File is a character special file. if (-t $FullFilename) // Filehandle is opened to a tty.
if (-u $FullFilename) // File has setuid bit set. if (-g $FullFilename) // File has setgid bit set. if (-k $FullFilename) // File has sticky bit set.
if (-T $FullFilename) // File is an ASCII text file. if (-B $FullFilename) // File is a "binary" file (opposite of -T).
$Age = -M $FullFilename; // Age of file in days when script started. $Age = -A $FullFilename; // Same for access time. $Age = -C $FullFilename; // Same for inode change time.
chdirEdit
chdir $Directory;
chdir $Directory || die("Couldn't change directory");
chmodEdit
chmod 0744 $File1; chmod 0666 $File1, $File2, $File3; # 0 for octal, at the beginning of a number
| Owner | Group | Others | Execute | 4 | 4 | 4 | Write | 2 | 2 | 2 | Read | 1 | 1 | 1 | ======--+======-+======-+======--+ Total | | | |
chownEdit
# Change the owner of a file chown($NewUserID, $NewGroupID, $Filename); chown($
NewUserID $NewGroupID, $File1, $File2, $File3); NewUserID, $NewGroupID, $File1, $File2, $File3);
chown($NewUserID, -1, $Filename); # Leave group unchanged chown(-1, $NewGroupID, $Filename); # Leave user unchanged
chrootEdit
chroot $NewRootDirectory;
Sets the root directory for the program, such that the "/" location refers to the specified directory.
Program must be running as root for this to succeed.
lEdit
fcntlglobEdit
# Expands filenames, in a shell-like way
my @TextFiles = glob("*.txt");
See also File::Glob.
ioctlEdit
linkEdit
# Creates a link to a file
link($ExistingFile, $LinkLocation);
link($ExistingFile, $LinkLocation) || die("Couldn't create link");
lstatEdit
Identical to stat(), except that if given file is symbolic link, stat link not the target.
mkdirEdit
mkdir $Filename || die("Couldn't create directory");
mkdir $Filename, 0777; # Make directory with particular file-permissions
openEdit
open(my $FileHandle, $Filename) || die("Couldn't open file");
open(my $fp, "<", $Filename); # Read from file
open(my $fp, ">", $Filename); # Write to file
open(my $fp, ">>", $Filename); # Append to file
open(my $fp, "<$Filename"); # Read from file open(my $fp, ">$Filename"); # Write to file open(my $fp, ">>$Filename"); # Append to file
open(my $fp, "<", "./ filename with whitespace \0"); open(my $fp, "<", "./->filename with reserved characters\0");
open(my $fp, "$Program |"); # Read from the output of another program open(m myy $fp, "| $Program"); # Write to the input of another program
open(my $fp, "<", "-"); # Read from standard input open(my $fp, ">", "-"); # Write to standard output
opendirEdit
opendir(my $DirHandle, $Directory) || die("Couldn't open directory");
while (my $Filename = readdir $DirHandle) {
# Do something with $Filename in $Directory
}
closedir($DirHandle);
opendir(DIR, $Directory) || die("Couldn't open directory");
foreach(readdir(DIR)) {
# Do something with $_ in $Directory
}
closedir(DIR);
readlinkEdit
# Finds the value of a symbolic link $LinkTarget = readlink($LinkPosition);
renameEdit
rename $OldFile, $NewFile or die("Couldn't move file");
May work differently on non-*nix operating systems, and possibly not at all when moving between different filesystems. See [[File::Copy]] for more complicated file operations.
rmdirEdit
rmdir $Filename || die("Couldn't remove directory");
tEdit
stat
$DeviceNum = $FileStatistics[0]; # device number of filesystemcs[0]; # device number of filesystem $Inode = $FileStatistics[1]; # inode number $FileMode = $FileStatistics[2]; # (type and permissions) $NumHardLinks = $FileStatistics[3]; # number of (hard) links to the file $UserID = $FileStatistics[4]; # numeric user ID $GroupID = $FileStatistics[5]; # numeric group ID $DeviceIdent = $FileStatistics[6]; # Device identifier (special files only) $SizeBytes = $FileStatistics[7]; $AccessTime = $FileStatistics[8]; # seconds since the epoch $ModifyTime = $FileStatistics[9]; $ChangeTime = $FileStatistics[10]; $BlockSize = $FileStatistics[11]; $NumBlocks = $FileStatistics[12];
symlinkEdit
# Creates a new filename symbolically linked to the old filename
symlink($OldFilename, $NewFilename);
symlink($OldFilename, $NewFilename) || die("Couldn't create symlink");
eval(symlink($OldFilename, $NewFilename));
umaskEdit
# Sets or returns the umask for the process. my $UMask = umask(); umask(0000); # This process can create any type of files umask(0001); # This process can't create world-readable files umask(0444); # This process can't create executable files
unlinkEdit
# Deletes a file
unlink $Filename;
unlink $Filename || die("Couldn't delete file");
unlink $File1, $File2, $File3;
(unlink($File1, $File2, $File3) == 3) || die("Couldn't delete files");
utimeEdit
# Updates the modification times of a list of files my $AccessTime = time(); my $ModificationTime = time();
utime($AccessTime, $ModificationTime, $Filename); my $NumFilesChanged = utime($AccessTime, $ModificationTime, $File1, $File2, $File3);
Program functionsEdit
callerEdit
Returns information about the current function call stack. In scalar context, returns only the name of the package from where the current subroutine was called. In list context, returns the package, filename, and line number. In list context with a numeric argument passed, returns several pieces of information (see below). The argument represents how many levels in the call stack to go back.
# !/usr/bin/perl
foo();
sub foo {
$package = caller; # returns 'main'
($package, $filename, $line) = caller; # returns 'main', the file name, and 3
# Line below returns all 10 pieces of info. (Descriptions self-explanatory from variable names)
($package, $filename, $line, $subroutine, $hasargs, $wantarray, $evaltext, $is_require, $hints, $bitmask) =
caller(0);
}
importEdit
There is no actual 'import' function. Rather, it is a convention when writing a module to create a subroutine named 'import' that populates the current namespace with that module's needed variables or methods.
The standard 'Exporter' module provides an import method, if your class has it as a base class.
packageEdit
Declares all lines that follow (until EOF or the next package statement) to belong to the given package's namespace.
# !/usr/bin/perl
$x = 5; # sets $main::x
package Foo;
$x = 5; # sets $Foo::x
sub bar { # defines &Foo::bar
print "hello world";
}
package Temp; $x = 5; # sets $Temp::x
requireEdit
includes the specified module's code into the current program. The module can be specified either with an absolute or relative path, or with a bareword. If a bareword is given, a '.pm' extention is added, and :: is replaced with the current operating system's path seperator:
require Foo::Bar; # identical to: require 'Foo/Bar.pm';
useEdit
Requires and imports the given module or pragma, at compile time. The line
use Foo qw/bar baz/;
is identical to
BEGIN {
require Foo;
import Foo qw/bar baz/;
}
Misc functionsEdit
definedEdit
# returns true, if argument is not undef $x = 0; print "X defined\n" if defined $x; # prints print "Y defined\n" if defined $y; # does not print
dumpEdit
evalEdit
eval('$a = 30; $b = 40;');
print $a, $b;
formlineEdit
localEdit
# assigns temporary value to global variable for duration of lexical scope
$x = 5;
print "x = $x\n"; # 5
{
local $x = 10;
print "x = $x\n"; # 10
}
print "x = $x\n"; # 5
myEdit
# creates new lexical (ie, not global) variable
$x = 5; # refers to $main::x
{
my $x = 10;
print "x = $x\n"; # the lexical - 10
print "main's x = $main::x\n" # the global - 5
}
print "x = $x\n"; # the global, because no lexical in scope - 5
resetEdit
# resets hash's internal pointer, to affect lists returned by each
while ($k, $v = each %h) {
print "$k = $v\n";
last if ($i++ == 2);
}
# if another each done here, $k,$v will pick up where they left off.
reset %h
# now each will restart from the beginning.
scalarEdit
# forces scalar context on an array @sizes = (scalar @foo, scalar @bar); # creates a list of the sizes of @foo and @bar, rather than the elements in @foo and @bar
undefEdit
# undefines an existing variable $x = 5; undef $x; print "x = $x\n" if defined $x; # does not print
wantarrayEdit
# returns 'true', 'false', or undef if function that called it was called in list, scalar, or void context, respectively.
sub fctn {
my @vals = (5..10);
if (wantarray) {
return @vals;
} elsif (defined wantarray) {
return $vals[0];
} else {
warn "Warning! fctn() called in void context!\n";
}
}
ProcessesEdit
alarmEdit
execEdit
forkEdit
# clones the current process, returning 0 if clone, and the process id of the clone if the parent my $pid = fork();
if ($pid == 0) {
print "I am a copy of the original\n";
} elsif ($pid == -1) {
print "I can't create a clone for some reason!\n";
} else {
print "I am the original, my clone has a process id of $pid\n";
}
getpgrpEdit
getppidEdit
getpriorityEdit
killEdit
pipeEdit
qx/STRING/Edit
setpgrpEdit
setpriorityEdit
sleepEdit
systemEdit
timesEdit
waitEdit
waitpidEdit
ModulesEdit
doEdit
importEdit
noEdit
packageEdit
requireEdit
useEdit
Classes and objectsEdit
See also Perl Objects
blessEdit
dbmcloseEdit
dbmopenEdit
packageEdit
refEdit
tieEdit
tiedEdit
untieEdit
useEdit
SocketsEdit
acceptEdit
bindEdit
nectEdit
getpeernameEdit
getsocknameEdit
getsockoptEdit
enEdit
listenndEdit
setsockoptEdit
shutdownEdit
socketEdit
socketpairEdit
Login informationEdit
endgrentEdit
endhostentEdit
endnetentEdit
endpwentEdit
getgrentEdit
getgrgidEdit
getgrnamEdit
getloginEdit
getpwentEdit
getpwnamEdit
getpwuidEdit
setgrentEdit
setpwentEdit
Network informationEdit
endprotoentEdit
endserventEdit
gethostbyaddrEdit
ameEdit
bynamegethostentEdit
getnetbyaddrEdit
getnetbynameEdit
getnetentEdit
getprotobynameEdit
numberEdit
getprotoentEdit
getservbynameEdit
getservbyportEdit
getserventEdit
sethostentEdit
setnetentEdit
setprotoentEdit
setserventEdit
Time and dateEdit
gmtimeEdit
Converts a timestamp to GMT.
@TimeParts = gmtime(); @TimeParts = gmtime($Time);
$Seconds = $TimeParts[0]; # 0-59 $Minutes = $TimeParts[1]; # 0-59 $Hours = $TimeParts[2]; # 0-23 $DayOfMonth = $TimeParts[3]; # 1-31 $Month = $TimeParts[4]; # 0-11 $Year = $TimeParts[5]; # Years since 1900 $DayOfWeek = $TimeParts[6]; # 0:Sun 1:Mon 2:Tue 3:Wed 4:Thu 5:Fri 6:Sat $DayOfYear = $TimeParts[7]; # 1-366
localtimeEdit
Converts a timestamp to local time.
@TimeParts = localtime(); @TimeParts = localtime($Time);
$Seconds = $TimeParts[0]; # 0-59 $Minutes = $TimeParts[1]; # 0-59 $Hours = $TimeParts[2]; # 0-23 $DayOfMonth = $TimeParts[3]; # 1-31 $Month = $TimeParts[4]; # 0-11 $Year = $TimeParts[5]; # Years since 1900 $DayOfWeek = $TimeParts[6]; # 0:Sun 1:Mon 2:Tue 3:Wed 4:Thu 5:Fri 6:Sat $DayOfYear = $TimeParts[7]; # 1-366
timeEdit
$Time = time();
Returns number of seconds since an epoch (that is system-dependent, but may be 1970-01-01).
See also Time::Hires
timesEdit
@CPUTimes = times(); $UserTimeForProcess = $CPUTimes[0]; $SystemTimeForProcess = $CPUTimes[1]; $UserTimeForChildren = $CPUTimes[2]; $SystemTimeForChildren = $CPUTimes[3];
Functions that reverse each otherEdit
Some functions in perl reverse or otherwise cancel the effect of each other, so running a string through both of them will produce the same output as the input, for example
print ord(chr(1));
will echo 1 to standard output,
ord() will convert a character to its number in the character set, while chr() will convert a number to its corresponding character, therefore
in the same way that and in Mathematics (assuming x is non-negative), ord(chr(1)) = 1 and chr(ord(1)) = 1 in Perl.
List of functions that reverse each other:
- lc() and uc()
- lcfirst() and ucfirst()
- ord() and chr()
- join() and split()
- push() and pop()
- unshift() and shift()