I am learning perl and understand that it is a common and accepted practice to unpack subroutine arguments using shift. I also understand that it is common and acceptable practice to omit function arguments to use the default @_ array.

Considering these two things, if you call a subroutine without arguments, the @_ can (and will, if using shift) be changed. Does this mean that calling another subroutine with default arguments, or, in fact, using the @_ array after this, is considered bad practice? Consider this example:

sub total { # calculate sum of all arguments
    my $running_sum;
    # take arguments one by one and sum them together
    while (@_) {
       $running_sum += shift;

sub avg { calculate the mean of given arguments
    if (@_ == 0) { return }
    my $sum = &total; # gets the correct answer, but changes @_
    $sum / @_ # causes division by zero, since @_ is now empty

My gut feeling tells me that using shift to unpack arguments would actually be bad practice, unless your subroutine is actually supposed to change the passed arguments, but I have read in multiple places, including Stack Overflow, that this is not a bad practice.

So the question is: if using shift is common practice, should I always assume the passed argument list could get changed, as a side-effect of the subroutine (like the &total subroutine in the quoted example)? Is there maybe a way to pass arguments by value, so I can be sure that the argument list does not get changed, so I could use it again (like in the &avg subroutine in the quoted text)?

  • 2
    Btw, I'd use return undef; rather than return; for avg no arguments (just like you did for total). avg is a function that's expected to return a scalar. Having it return less than one value will cause surprises. e.g. The following would fail with an empty @data: { avg => avg(@data), ts => time() } – ikegami Dec 31 '12 at 17:45

In general, shifting from the arguments is ok—using the & sigil to call functions isn't. (Except in some very specific situations you'll probably never encounter.)

Your code could be re-written, so that total doesn't shift from @_. Using a for-loop may even be more efficient.

sub total {
  my $total = 0;
   $total += $_ for @_;

Or you could use the sum function from List::Util:

use List::Util qw(sum);

sub avg { @_ ? sum(@_) / @_ : 0 }

Using shift isn't that common, except for extracting $self in object oriented Perl. But as you always call your functions like foo( ... ), it doesn't matter if foo shifts or doesn't shift the argument array.
(The only thing worth noting about a function is whether it assigns to elements in @_, as these are aliases for the variables you gave as arguments. Assigning to elements in @_ is usually bad.)

Even if you can't change the implementation of total, calling the sub with an explicit argument list is safe, as the argument list is a copy of the array:

(a) &total — calls total with the identical @_, and overrides prototypes.
(b) total(@_) — calls total with a copy of @_.
(c) &total(@_) — calls total with a copy of @_, and overrides prototypes.

Form (b) is standard. Form (c) shouldn't be seen, except in very few cases for subs inside the same package where the sub has a prototype (and don't use prototypes), and they have to be overridden for some obscure reason. A testament to poor design. Form (a) is only sensible for tail calls (@_ = (...); goto &foo) or other forms of optimization (and premature optimization is the root of all evil).

  • Thank you, this is precisely the answer I was looking for. In fact, I just stumbled upon it myself while re-reading "Learning Perl" (6th ed.) chapter on subroutines. The book actually encourages you to use the ampersand every time it's not forbidden, but it also specifies in footnote that calling a subroutine with ampersand, without any arguments AND without parentheses, makes it inherit the @_. I hadn't read that footnote beforehand and stumbled on precisely this case. – Mythoranium Dec 31 '12 at 13:05
  • 3
    goto &foo and &foo aren't the same thing. The former is used for stack manipulation (e.g. To make AUTOLOAD transparent). The latter is a minor convenience at times (e.g. sub warn { unshift @_, 'warn'; &log }). – ikegami Dec 31 '12 at 17:40
  • 3
    There's a strong anti-& camp, but their main argument is that you may accidentally leave off parenthesis and get the @_-propagation when you don't want it (and the ugliness factor). I've worked on code bases where all non-CPAN functions are called with &; it's not so bad when you are used to it. Like everything else, consistency is often more important than what you are consistent about. – ysth Dec 31 '12 at 18:20

You should avoid using the &func; style of calling unless you have a really good reason, and trust that others do the same.

To guard your @_ against modification by a callee, just do &func() or func.


Perl is a little too lax sometimes and having multiple ways of accessing input parameters can make smelly and inconsistent code. For want of a better answer, try to impose your own standard.

Here's a few ways I've used and seen


sub login
    my $user = shift;
    my $passphrase = shift;
    # Validate authentication    
    return 0;

Expanding @_

sub login
    my ($user, $passphrase) = @_;
     # Validate authentication   
    return 0;

Explicit indexing

sub login 
    my user = $_[0];
    my user = $_[1];
    # Validate authentication
    return 0;

Enforce parameters with function prototypes (this is not popular however)

sub login($$)
    my ($user, $passphrase) = @_;   
    # Validate authentication
    return 0;

Sadly you still have to perform your own convoluted input validation/taint checking, ie:

return unless defined $user;
return unless defined $passphrase;

or better still, a little more informative

unless (defined($user) && defined($passphrase)) {
    carp "Input error: user or passphrase not defined";
    return -1;

Perldoc perlsub should really be your first port of call.

Hope this helps!

  • Thanks for the detailed answer, but it does not really answer my question, possibly because my question could be misunderstood. While I know there are multiple ways to unpack arguments, the difference is that some of them (for example ($user, $passphrase) = @_;) don't change the original argument list and some (like the shifty way) do change it. Since I might be using subroutines not written by me, I do not know if I can call another subroutine with the same argument variable @_ multiple times, without having to manually save it in another array for later use. I have updated the question. – Mythoranium Dec 31 '12 at 12:11

Here are some examples where the careful use of @_ matters.

1. Hash-y Arguments

Sometimes you want to write a function which can take a list of key-value pairs, but one is the most common use and you want that to be available without needing a key. For example

sub get_temp {
  my $location = @_ % 2 ? shift : undef;
  my %options = @_;
  $location ||= $options{location};

So now if you call the function with an odd number of arguments, the first is location. This allows get_temp('Chicago') or get_temp('New York', unit => 'C') or even get_temp( unit => 'K', location => 'Nome, Ak'). This may be a more convenient API for your users. By shifting the odd argument, now @_ is an even list and may be assigned to a hash.

2. Dispatching

Lets say we have a class that we want to be able to dispatch methods by name (possibly AUTOLOAD could be useful, we will hand roll). Perhaps this is a command line script where arguments are methods. In this case we define two dispatch methods one "clean" and one "dirty". If we call with the -c flag we get the clean one. These methods find the method by name and call it. The difference is how. The dirty one leaves itself in the stack trace, the clean one has to be more cleaver, but dispatches without being in the stack trace. We make a death method which gives us that trace.

#!/usr/bin/env perl

use strict;
use warnings;

package Unusual;

use Carp;

sub new { 
  my $class = shift;
  return bless { @_ }, $class;

sub dispatch_dirty { 
  my $self = shift;
  my $name = shift;
  my $method = $self->can($name) or confess "No method named $name";

sub dispatch_clean { 
  my $self = shift;
  my $name = shift;
  my $method = $self->can($name) or confess "No method named $name";
  unshift @_, $self;
  goto $method;

sub death { 
  my ($self, $message) = @_;
  $message ||= 'died';
  confess "$self->{name}: $message";

package main;

use Getopt::Long;
  'clean'  => \my $clean,
  'name=s' => \(my $name = 'Robot');

my $obj = Unusual->new(name => $name);
if ($clean) {
} else {

So now if we call ./test.pl to invoke the death method

$ ./test.pl death Goodbye
Robot: Goodbye at ./test.pl line 32
    Unusual::death('Unusual=HASH(0xa0f7188)', 'Goodbye') called at ./test.pl line 19
    Unusual::dispatch_dirty('Unusual=HASH(0xa0f7188)', 'death', 'Goodbye') called at ./test.pl line 46

but wee see dispatch_dirty in the trace. If instead we call ./test.pl -c we now use the clean dispatcher and get

$ ./test.pl -c death Adios
Robot: Adios at ./test.pl line 33
    Unusual::death('Unusual=HASH(0x9427188)', 'Adios') called at ./test.pl line 44

The key here is the goto (not the evil goto) which takes the subroutine reference and immediately switches the execution to that reference, using the current @_. This is why I have to unshift @_, $self so that the invocant is ready for the new method.



sub refWay{
    my ($refToArray,$secondParam,$thirdParam) = @_;
    #work here

refWay(\@array, 'a','b');


sub hashWay{
   my $refToHash = shift; #(if pass ref to hash)
   #and i know, that:
   return undef unless exists $refToHash->{'user'};
   return undef unless exists $refToHash->{'password'};   

   #or the same in loop:
   for (qw(user password etc)){
       return undef unless exists $refToHash->{$_};

hashWay({'user'=>YourName, 'password'=>YourPassword});

I tried a simple example:


use strict;

sub total {

    my $sum = 0;
    while(@_) {
        $sum = $sum + shift;
    return $sum;

sub total1 {

my ($a, $aa, $aaa) = @_;

return ($a + $aa + $aaa);

my $s;
$s = total(10, 20, 30);
print $s;
$s = total1(10, 20, 30);
print "\n$s";

Both print statements gave answer as 60.

But personally I feel, the arguments should be accepted in this manner:

 my (arguments, @garb) = @_;

in order to avoid any sort of issue latter.


I found the following gem in http://perldoc.perl.org/perlsub.html:

"Yes, there are still unresolved issues having to do with visibility of @_ . I'm ignoring that question for the moment. (But note that if we make @_ lexically scoped, those anonymous subroutines can act like closures... (Gee, is this sounding a little Lispish? (Never mind.)))"

You might have run into one of those issues :-(

OTOH amon is probably right -> +1

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